Trial Outcomes & Findings for Randomized Phase II Study of AZD6244 (Mitogen-activated Protein Kinase Inhibitor) MEK-Inhibitor With Erlotinib in KRAS Wild Type Advanced Non-Small Cell Lung Cancer (NSCLC) and a Randomized Phase II Study of AZD6244 With Erlotinib in Mutant KRAS Adva... (NCT NCT01229150)
NCT ID: NCT01229150
Last Updated: 2017-05-23
Results Overview
Time between the first day of treatment to the day of disease progression. Progressive disease is at least a 20% increase in the sum of the diameters of target lesions, taking as reference the smallest sum on study (this includes the baseline sum if that's the smallest on study). In addition to the relative increase of 20% of at least 5mm. (Note: the appearance of one or more lesions is also considered progression).
Recruitment status
COMPLETED
Study phase
PHASE2
Target enrollment
89 participants
Primary outcome timeframe
2.1 to 4 months
Results posted on
2017-05-23
Participant Flow
89 participants were enrolled and 79 participants started. 10 patients should be classified as screen failures. Of the 10, one died during the screening process, and one patient withdrew during the screening process.
Participant milestones
| Measure |
KRAS Mut 2
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Overall Study
STARTED
|
30
|
11
|
19
|
19
|
|
Overall Study
COMPLETED
|
28
|
9
|
19
|
19
|
|
Overall Study
NOT COMPLETED
|
2
|
2
|
0
|
0
|
Reasons for withdrawal
| Measure |
KRAS Mut 2
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Overall Study
Toxicity
|
2
|
2
|
0
|
0
|
Baseline Characteristics
Randomized Phase II Study of AZD6244 (Mitogen-activated Protein Kinase Inhibitor) MEK-Inhibitor With Erlotinib in KRAS Wild Type Advanced Non-Small Cell Lung Cancer (NSCLC) and a Randomized Phase II Study of AZD6244 With Erlotinib in Mutant KRAS Adva...
Baseline characteristics by cohort
| Measure |
KRAS Mut 2
n=30 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
n=19 Participants
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
Total
n=79 Participants
Total of all reporting groups
|
|---|---|---|---|---|---|
|
Age, Categorical
<=18 years
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
0 Participants
n=21 Participants
|
|
Age, Categorical
Between 18 and 65 years
|
16 Participants
n=5 Participants
|
5 Participants
n=7 Participants
|
11 Participants
n=5 Participants
|
10 Participants
n=4 Participants
|
42 Participants
n=21 Participants
|
|
Age, Categorical
>=65 years
|
14 Participants
n=5 Participants
|
6 Participants
n=7 Participants
|
8 Participants
n=5 Participants
|
9 Participants
n=4 Participants
|
37 Participants
n=21 Participants
|
|
Age, Continuous
|
66.05 years
STANDARD_DEVIATION 9.648 • n=5 Participants
|
64.31 years
STANDARD_DEVIATION 13.76 • n=7 Participants
|
63.75 years
STANDARD_DEVIATION 13.6 • n=5 Participants
|
64.84 years
STANDARD_DEVIATION 8.10 • n=4 Participants
|
65.22 years
STANDARD_DEVIATION 9.46 • n=21 Participants
|
|
Sex: Female, Male
Female
|
16 Participants
n=5 Participants
|
7 Participants
n=7 Participants
|
9 Participants
n=5 Participants
|
6 Participants
n=4 Participants
|
38 Participants
n=21 Participants
|
|
Sex: Female, Male
Male
|
14 Participants
n=5 Participants
|
4 Participants
n=7 Participants
|
10 Participants
n=5 Participants
|
13 Participants
n=4 Participants
|
41 Participants
n=21 Participants
|
|
Ethnicity (NIH/OMB)
Hispanic or Latino
|
1 Participants
n=5 Participants
|
2 Participants
n=7 Participants
|
2 Participants
n=5 Participants
|
3 Participants
n=4 Participants
|
8 Participants
n=21 Participants
|
|
Ethnicity (NIH/OMB)
Not Hispanic or Latino
|
25 Participants
n=5 Participants
|
9 Participants
n=7 Participants
|
15 Participants
n=5 Participants
|
12 Participants
n=4 Participants
|
61 Participants
n=21 Participants
|
|
Ethnicity (NIH/OMB)
Unknown or Not Reported
|
4 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
2 Participants
n=5 Participants
|
4 Participants
n=4 Participants
|
10 Participants
n=21 Participants
|
|
Race (NIH/OMB)
American Indian or Alaska Native
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
0 Participants
n=21 Participants
|
|
Race (NIH/OMB)
Asian
|
1 Participants
n=5 Participants
|
1 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
1 Participants
n=4 Participants
|
3 Participants
n=21 Participants
|
|
Race (NIH/OMB)
Native Hawaiian or Other Pacific Islander
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
0 Participants
n=21 Participants
|
|
Race (NIH/OMB)
Black or African American
|
3 Participants
n=5 Participants
|
2 Participants
n=7 Participants
|
4 Participants
n=5 Participants
|
4 Participants
n=4 Participants
|
13 Participants
n=21 Participants
|
|
Race (NIH/OMB)
White
|
26 Participants
n=5 Participants
|
8 Participants
n=7 Participants
|
14 Participants
n=5 Participants
|
13 Participants
n=4 Participants
|
61 Participants
n=21 Participants
|
|
Race (NIH/OMB)
More than one race
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
0 Participants
n=21 Participants
|
|
Race (NIH/OMB)
Unknown or Not Reported
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
1 Participants
n=5 Participants
|
1 Participants
n=4 Participants
|
2 Participants
n=21 Participants
|
|
Region of Enrollment
United States
|
30 Participants
n=5 Participants
|
11 Participants
n=7 Participants
|
19 Participants
n=5 Participants
|
19 Participants
n=4 Participants
|
79 Participants
n=21 Participants
|
|
Histology
Lung Cancer Adenocarcinoma
|
30 Participants
n=5 Participants
|
11 Participants
n=7 Participants
|
15 Participants
n=5 Participants
|
15 Participants
n=4 Participants
|
71 Participants
n=21 Participants
|
|
Histology
Squamous cell
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
4 Participants
n=5 Participants
|
4 Participants
n=4 Participants
|
8 Participants
n=21 Participants
|
|
Mutational Status
EGFR Mutated (L858R)
|
30 Participants
n=5 Participants
|
11 Participants
n=7 Participants
|
1 Participants
n=5 Participants
|
1 Participants
n=4 Participants
|
43 Participants
n=21 Participants
|
|
Mutational Status
EGFR Wild Type
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
18 Participants
n=5 Participants
|
18 Participants
n=4 Participants
|
36 Participants
n=21 Participants
|
|
Mutational Status
KRAS G12A
|
6 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
6 Participants
n=21 Participants
|
|
Mutational Status
KRAS G12C
|
8 Participants
n=5 Participants
|
4 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
12 Participants
n=21 Participants
|
|
Mutational Status
KRAS G12D
|
1 Participants
n=5 Participants
|
1 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
2 Participants
n=21 Participants
|
|
Mutational Status
KRAS G12K
|
1 Participants
n=5 Participants
|
1 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
2 Participants
n=21 Participants
|
|
Mutational Status
KRAS G12R
|
0 Participants
n=5 Participants
|
1 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
1 Participants
n=21 Participants
|
|
Mutational Status
KRAS G12S
|
1 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
1 Participants
n=21 Participants
|
|
Mutational Status
KRAS G12V
|
9 Participants
n=5 Participants
|
4 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
13 Participants
n=21 Participants
|
|
Mutational Status
KRAS Q61H
|
2 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
2 Participants
n=21 Participants
|
|
Mutational Status
KRAS Q61L
|
2 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
2 Participants
n=21 Participants
|
|
Mutational Status
KRAS
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
0 Participants
n=21 Participants
|
|
Eastern Cooperative Oncology Group (ECOG)
0
|
3 Participants
n=5 Participants
|
1 Participants
n=7 Participants
|
2 Participants
n=5 Participants
|
2 Participants
n=4 Participants
|
8 Participants
n=21 Participants
|
|
Eastern Cooperative Oncology Group (ECOG)
1
|
14 Participants
n=5 Participants
|
5 Participants
n=7 Participants
|
11 Participants
n=5 Participants
|
7 Participants
n=4 Participants
|
37 Participants
n=21 Participants
|
|
Eastern Cooperative Oncology Group (ECOG)
2
|
13 Participants
n=5 Participants
|
5 Participants
n=7 Participants
|
6 Participants
n=5 Participants
|
10 Participants
n=4 Participants
|
34 Participants
n=21 Participants
|
|
No. of Prior Regimens
1
|
12 Participants
n=5 Participants
|
6 Participants
n=7 Participants
|
10 Participants
n=5 Participants
|
8 Participants
n=4 Participants
|
36 Participants
n=21 Participants
|
|
No. of Prior Regimens
2
|
18 Participants
n=5 Participants
|
5 Participants
n=7 Participants
|
9 Participants
n=5 Participants
|
11 Participants
n=4 Participants
|
43 Participants
n=21 Participants
|
|
Smoking
Current
|
9 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
0 Participants
n=5 Participants
|
0 Participants
n=4 Participants
|
9 Participants
n=21 Participants
|
|
Smoking
Former
|
21 Participants
n=5 Participants
|
11 Participants
n=7 Participants
|
13 Participants
n=5 Participants
|
16 Participants
n=4 Participants
|
61 Participants
n=21 Participants
|
|
Smoking
Never-smoker
|
0 Participants
n=5 Participants
|
0 Participants
n=7 Participants
|
6 Participants
n=5 Participants
|
3 Participants
n=4 Participants
|
9 Participants
n=21 Participants
|
PRIMARY outcome
Timeframe: 2.1 to 4 monthsTime between the first day of treatment to the day of disease progression. Progressive disease is at least a 20% increase in the sum of the diameters of target lesions, taking as reference the smallest sum on study (this includes the baseline sum if that's the smallest on study). In addition to the relative increase of 20% of at least 5mm. (Note: the appearance of one or more lesions is also considered progression).
Outcome measures
| Measure |
KRAS Mut 2
n=30 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
n=19 Participants
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Progression Free Survival
|
2.3 Months
Interval 2.0 to 4.6
|
4.0 Months
Interval 2.9 to 7.8
|
2.4 Months
Interval 1.3 to 3.7
|
2.1 Months
Interval 1.8 to 5.1
|
PRIMARY outcome
Timeframe: Up to 37 monthsPopulation: There were no partial or complete responses in the KRAS mut 1 arm.
Objective response is complete response + partial response. Complete response is disappearance of all target lesions. Any pathological lymph nodes (whether target or non-target) must have reduction in short axis to \<10mm. Partial response is at least a 30% decrease in the sum of the diameters of target lesions, taking as reference the baseline sum diameters.
Outcome measures
| Measure |
KRAS Mut 2
n=30 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
n=19 Participants
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Objective Response
|
3 participants
|
0 participants
|
1 participants
|
2 participants
|
SECONDARY outcome
Timeframe: 42 monthsPopulation: The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
Here is the number of participants with adverse events. For the detailed list of adverse events see the adverse event module.
Outcome measures
| Measure |
KRAS Mut 2
n=49 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Number of Participants With Adverse Events
|
49 Participants
|
9 Participants
|
18 Participants
|
—
|
SECONDARY outcome
Timeframe: 3 cycles or up to 84 daysDisease control/stabilization is the percentage of participants with partial response (PR) + complete response (CR) + stable disease (SD). Partial response is at least a 30% decrease in the sum of the diameters of target lesions, taking as reference the baseline sum diameters. Complete response is disappearance of all target lesions. Any pathological lymph nodes (whether target or non-target) must have reduction in short axis to \<10mm. Stable disease is neither sufficient shrinkage to qualify for PR nor sufficient increase to qualify for progressive disease (at least a 20% increase in the sum of the diameters of target lesions, taking as reference the smallest sum on study (this includes the baseline sum if that is the smallest on study). In addition to the relative increase of 20%, the sum must also demonstrate an absolute increase of at least 5mm. (Note: the appearance of one or more new lesions is also considered progressions.), taking as reference the smallest sum diameters.
Outcome measures
| Measure |
KRAS Mut 2
n=30 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
n=19 Participants
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Percentage of Participants With Disease Control/Stabilization
|
43 percentage of participants
Interval 25.5 to 52.6
|
89 percentage of participants
Interval 51.8 to 99.7
|
47 percentage of participants
Interval 24.4 to 71.1
|
35.3 percentage of participants
Interval 14.2 to 61.7
|
SECONDARY outcome
Timeframe: Up to 26 monthsTime between the first day of treatment to the time of death.
Outcome measures
| Measure |
KRAS Mut 2
n=30 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
n=19 Participants
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Overall Survival
|
21.8 Months
Interval 5.7 to
The upper end of the confidence interval is undefined because there were too few events to calculate.
|
10.5 Months
Interval 5.7 to
The upper end of the confidence interval is undefined because there were too few events to calculate.
|
6.3 Months
Interval 2.6 to 19.5
|
12.9 Months
Interval 3.5 to 25.4
|
SECONDARY outcome
Timeframe: Pretreatment - Cycle 1 Day 1Population: No participants were analyzed in the WT KRAS 1 cohort because no samples were available for analysis. For all other cohorts, the numbers analyzed indicates some samples were either not drawn or could not be located.
First the number of T cells that are CD4+ is determined by staining with an antibody to CD4 and measured in a flow cytometer. Then the number of Th17+ cells is determined by staining with an antibody to IL-17 and measured in a flow cytometer. Then the percentage of CD4+ cells that are also Th17 cells is determined as a simple ratio, i.e. Th17cells/CD4 cells. This ratio is reported here for each category of KRAS mutation status for whom we had patients.
Outcome measures
| Measure |
KRAS Mut 2
n=15 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=4 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=9 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Percentage of Th17 in Cluster of Differentiation 4 (CD4)+T Cells at Baseline in Relation to Response
|
0.19 Percentage of Th17 in CD4+T Cells
Standard Deviation 0.18
|
0.11 Percentage of Th17 in CD4+T Cells
Standard Deviation 0.05
|
0.34 Percentage of Th17 in CD4+T Cells
Standard Deviation 0.27
|
—
|
SECONDARY outcome
Timeframe: Cycle 1 Day 1 pre-treatment with Cycle 1 Day 2 (1 day after starting treatment), and Cycle 1 Day 14 (2 weeks after starting treatment)Population: Re: number of participants analyzed: Samples were either not drawn or could not be located. WT KRAS 1/WT KRAS 2 are missing because the effect of treatment on the Ras-Raf-MEK-ERK pathway as measured by a reduction in phosphorylated extracellular signal-regulated kinases (p-ERK) in lymphocytes was evaluated in patients with KRAS-mutated tumors only.
Level of p-ERK was measured by the median channel cumber of fluorescence intensity. Data are relative to the level before therapy begins(C1D1).Then we see what the level was after therapy \& compare. Every value after therapy is compared to pre-therapy, \& every patient is their own control. To do that, we make C1D1 equal to 1 for every patient \& then compare the pERK level after therapy by looking at the fold change in pERK level.
Outcome measures
| Measure |
KRAS Mut 2
n=17 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=4 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Number of Participants With a Reduction in Phosphorylated Extracellular Signal-Regulated Kinases (p-ERK) in Lymphocytes
Cycle 1 Day 1
|
NA participants
C1D1 is NA because every other time point, pERK level was normalized against C1D1; all the C1D1 values were set to 1.
|
NA participants
C1D1 is NA because every other time point, pERK level was normalized against C1D1; all the C1D1 values were set to 1.
|
—
|
—
|
|
Number of Participants With a Reduction in Phosphorylated Extracellular Signal-Regulated Kinases (p-ERK) in Lymphocytes
Cycle 1 day 2
|
17 participants
|
4 participants
|
—
|
—
|
|
Number of Participants With a Reduction in Phosphorylated Extracellular Signal-Regulated Kinases (p-ERK) in Lymphocytes
Cycle 1 day 14
|
14 participants
|
2 participants
|
—
|
—
|
OTHER_PRE_SPECIFIED outcome
Timeframe: At enrollmentPopulation: Tumor MIB-1 (Ki-67) rate testing was not done because it was too costly.
Changes in a tumor's MIB-1 (Ki-67) rate was to be assessed by immunohistochemistry.
Outcome measures
Outcome data not reported
OTHER_PRE_SPECIFIED outcome
Timeframe: Cycle 1 Day 1 pre-treatment with Cycle 1 Day 2 (1 day after starting treatment), and Cycle 1 Day 14 (2 weeks after starting treatment)Population: These are exploratory results and a normal range has not been defined for fold change. No participants were analyzed in the WT KRAS 1 cohort because no samples were available for analysis. Missing numbers in the other cohorts were either not drawn, misplaced or the samples were not viable.
Fold change from cycle 1 day 1 was determined by TIM-3 expression level on Tregs measured by the median channel number of fluorescence intensity.
Outcome measures
| Measure |
KRAS Mut 2
n=17 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=4 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=8 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Change in T Cell Immunoglobulin Mucin 3 (TIM-3) on Tregs
Cycle 1 Day 2
|
1.01 Fold change
Standard Deviation 0.09
|
1.01 Fold change
Standard Deviation 0.12
|
1.11 Fold change
Standard Deviation 0.13
|
—
|
|
Change in T Cell Immunoglobulin Mucin 3 (TIM-3) on Tregs
Cycle 1 Day 14
|
0.98 Fold change
Standard Deviation 0.10
|
0.84 Fold change
Standard Deviation 0.07
|
0.96 Fold change
Standard Deviation 0.11
|
—
|
OTHER_PRE_SPECIFIED outcome
Timeframe: Cycle 1 Day 1 pre-treatment with Cycle 1 Day 2 (1 day after starting treatment), and Cycle 1 Day 14 (2 weeks after starting treatment)Population: These are exploratory results and a normal range has not been defined for fold change. No participants were analyzed in the WT KRAS 1 cohort because no samples were available for analysis. Missing numbers in the other cohorts were either not drawn, misplaced or the samples were not viable.
The fold change from cycle 1 day 1 was determined by the level of CTLA-4 expression on Tregs measured by the median channel number of fluorescence intensity.
Outcome measures
| Measure |
KRAS Mut 2
n=17 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=4 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=10 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Change in Cytotoxic T-lymphocyte Associated Protein 4 (CTLA-4) Expression on Tregs
Cycle 1 Day 2
|
0.95 Fold change
Standard Deviation 0.17
|
0.85 Fold change
Standard Deviation 0.10
|
1.15 Fold change
Standard Deviation 0.28
|
—
|
|
Change in Cytotoxic T-lymphocyte Associated Protein 4 (CTLA-4) Expression on Tregs
Cycle 1 Day 14
|
1.25 Fold change
Standard Deviation 0.46
|
0.89 Fold change
Standard Deviation 0.29
|
1.49 Fold change
Standard Deviation 0.61
|
—
|
OTHER_PRE_SPECIFIED outcome
Timeframe: Cycle 1 Day 1 pre-treatment with Cycle 1 Day 2 (1 day after starting treatment), and Cycle 1 Day 14 (2 weeks after starting treatment)Population: These are exploratory results and a normal range has not been defined for fold change. No participants were analyzed in the WT KRAS 1 cohort because no samples were available for analysis. Missing numbers in the other cohorts were either not drawn, misplaced or the samples were not viable.
Fold change from cycle 1 day 1 was determined by the PD-1 expression level on Tregs measured by the median channel number of fluorescence intensity.
Outcome measures
| Measure |
KRAS Mut 2
n=17 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=4 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=10 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Change in Programmed Cell Death-1 (PD-1) Expression on Tregs
Cycle 1 Day 2
|
0.99 Fold change
Standard Deviation 0.28
|
0.96 Fold change
Standard Deviation 0.09
|
1.33 Fold change
Standard Deviation 0.57
|
—
|
|
Change in Programmed Cell Death-1 (PD-1) Expression on Tregs
Cycle 1 Day 14
|
1.31 Fold change
Standard Deviation 0.42
|
0.98 Fold change
Standard Deviation 0.04
|
2.31 Fold change
Standard Deviation 1.77
|
—
|
OTHER_PRE_SPECIFIED outcome
Timeframe: Cycle 1 Day 1 pre-treatment with Cycle 1 Day 2 (1 day after starting treatment), and Cycle 1 Day 14 (2 weeks after starting treatment)Population: These are exploratory results and a normal range has not been defined for fold change. No participants were analyzed in the WT KRAS 1 cohort because no samples were available for analysis. Missing numbers in the other cohorts were either not drawn, misplaced or the samples were not viable.
Fold change from cycle 1 day 1 was determined by programmed cell death-1 (PD-1) expression on CD8+ T cells measured by the median channel number of fluorescence intensity.
Outcome measures
| Measure |
KRAS Mut 2
n=17 Participants
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=4 Participants
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=10 Participants
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
WT KRAS 2
Wild-Type KRAS patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd + erl mg qd.
|
|---|---|---|---|---|
|
Change in Programmed Cell Death-1 (PD-1) Expression on Cluster of Differentiation 8 (CD8)+T Cells
Cycel 1 Day 2
|
1.05 Fold change
Standard Deviation 0.15
|
1.09 Fold change
Standard Deviation 0.33
|
1.19 Fold change
Standard Deviation 0.40
|
—
|
|
Change in Programmed Cell Death-1 (PD-1) Expression on Cluster of Differentiation 8 (CD8)+T Cells
Cycle 1 Day 14
|
1.16 Fold change
Standard Deviation 0.27
|
1.14 Fold change
Standard Deviation 0.34
|
1.26 Fold change
Standard Deviation 0.25
|
—
|
OTHER_PRE_SPECIFIED outcome
Timeframe: At enrollmentPopulation: Zero participants were analyzed because most of the immunohistochemistry (IHC) specialty assays (e.g. IHC, fluoresense in situ hybridization (FISH), polymerase chain reaction (PCR) were not available (still are not performed in path) and required funding for development that was not provided.
p-ERK, p-AKt and PTEN protein expression testing was to be assessed by immunohistochemistry.
Outcome measures
Outcome data not reported
OTHER_PRE_SPECIFIED outcome
Timeframe: At enrollmentPopulation: Zero participants were analyzed because most of the immunohistochemistry (IHC) specialty assays (e.g. IHC, fluoresense in situ hybridization (FISH), polymerase chain reaction (PCR) were not available (still are not performed in path) and required funding for development that was not provided.
Number of participants with over expression of EGFR and c-MET was to be assessed by fluoresense in situ hybridization (FISH).
Outcome measures
Outcome data not reported
OTHER_PRE_SPECIFIED outcome
Timeframe: At enrollmentPopulation: Zero participants were analyzed because most of the immunohistochemistry (IHC) specialty assays (e.g. IHC, fluoresense in situ hybridization (FISH), polymerase chain reaction (PCR) were not available (still are not performed in path) and required funding for development that was not provided.
Number of participants who underwent mutational analysis for EGFR, MEK 1, BRAF, and LKB1 was to be assessed by polymerase chain reaction (PCR).
Outcome measures
Outcome data not reported
Adverse Events
KRAS Mut 2 & WT KRAS 2
Serious events: 30 serious events
Other events: 49 other events
Deaths: 17 deaths
KRAS Mut 1
Serious events: 6 serious events
Other events: 9 other events
Deaths: 4 deaths
WT KRAS 1
Serious events: 11 serious events
Other events: 18 other events
Deaths: 8 deaths
Serious adverse events
| Measure |
KRAS Mut 2 & WT KRAS 2
n=49 participants at risk
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS 2 patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 participants at risk
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 participants at risk
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
|---|---|---|---|
|
General disorders
Death NOS
|
32.7%
16/49 • Number of events 16
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.4%
4/11 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
42.1%
8/19 • Number of events 8
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Dyspnea
|
8.2%
4/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
INR increased
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Lung infection
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Transient ischemic attacks
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Abdominal pain
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Atrial fibrillation
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Chest wall pain
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Constipation
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Fatigue
|
12.2%
6/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Generalized muscle weakness
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Heart failure
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Ileal obstruction
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Nausea
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Vomiting
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Acute kidney injury
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Adult respiratory distress syndrome
|
2.0%
1/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Blood and lymphatic system disorders
Anemia
|
6.1%
3/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Cardiac disorders - Other, specify (left ventricular systolic dysfunction)
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Psychiatric disorders
Confusion
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Creatinine increased
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Dehydration
|
12.2%
6/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Diarrhea
|
12.2%
6/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Dysphagia
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Edema limbs
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Ejection fraction decreased
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Gastric hemorrhage
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Vascular disorders
Hypertension
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypoalbuminemia
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hyponatremia
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Vascular disorders
Hypotension
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Hypoxia
|
4.1%
2/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Muscle weakness lower limb
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Myocardial infarction
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Nervous system disorders - Other, specify
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Pericardial effusion
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Pleural effusion
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Pneumonitis
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Respiratory failure
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Vascular disorders
Thromboembolic event
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Neoplasms benign, malignant and unspecified (incl cysts and polyps)
Neoplasms benign, malignant and unspecified
|
8.2%
4/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Gastrointestinal disorders - Other, specify (bile duct obstruction)
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Neoplasms benign, malignant and unspecified (incl cysts and polyps)
Neoplasms benign, malignant and unspecified (incl cysts and polyps) - Other, specify
|
8.2%
4/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
Other adverse events
| Measure |
KRAS Mut 2 & WT KRAS 2
n=49 participants at risk
KRAS Mutant patients randomized to combination therapy arm
AZD6244 + Erlotinib: For KRAS mutant patients and Wild-Type KRAS 2 patients randomized to the combination arm (arms are stratified based on KRAS mutational status), AZD6244 150 mg qd (every day) + erlotinib mg qd.
|
KRAS Mut 1
n=11 participants at risk
KRAS Mutant patients randomized to monotherapy arm
AZD6244: For KRAS mutant patients randomized to the single agent arm, AZD6244 75 mg bid (twice a day).
|
WT KRAS 1
n=19 participants at risk
Wild-Type KRAS patients randomized to monotherapy arm
Erlotinib: For Wild-Type KRAS patients randomized to the single agent arm, Erlotinib 150 mg qd
|
|---|---|---|---|
|
Musculoskeletal and connective tissue disorders
Back pain
|
10.2%
5/49 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Blood bilirubin increased
|
26.5%
13/49 • Number of events 16
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Bone pain
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
CPK increased
|
30.6%
15/49 • Number of events 39
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
45.5%
5/11 • Number of events 10
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Cheilitis
|
8.2%
4/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Chest wall pain
|
2.0%
1/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Chills
|
14.3%
7/49 • Number of events 8
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
15.8%
3/19 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Conjunctivitis
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Constipation
|
12.2%
6/49 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
45.5%
5/11 • Number of events 9
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Neoplasms benign, malignant and unspecified (incl cysts and polyps)
Neoplasms benign, malignant and unspecified (incl cysts and polyps)
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Non-cardiac chest pain
|
2.0%
1/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Pain
|
20.4%
10/49 • Number of events 12
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
27.3%
3/11 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Abdominal pain
|
18.4%
9/49 • Number of events 11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
15.8%
3/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Activated partial thromboplastin time prolonged
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Alanine aminotransferase increased
|
55.1%
27/49 • Number of events 51
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
45.5%
5/11 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
21.1%
4/19 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Alopecia
|
20.4%
10/49 • Number of events 10
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Blood and lymphatic system disorders
Anemia
|
49.0%
24/49 • Number of events 54
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.4%
4/11 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Anorexia
|
34.7%
17/49 • Number of events 23
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.4%
4/11 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
47.4%
9/19 • Number of events 10
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Psychiatric disorders
Anxiety
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
15.8%
3/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Aspartate aminotransferase increased
|
69.4%
34/49 • Number of events 65
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
45.5%
5/11 • Number of events 10
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
21.1%
4/19 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Cough
|
18.4%
9/49 • Number of events 13
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
47.4%
9/19 • Number of events 16
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Creatinine increased
|
26.5%
13/49 • Number of events 19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Psychiatric disorders
Depression
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Diarrhea
|
87.8%
43/49 • Number of events 94
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.4%
4/11 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
42.1%
8/19 • Number of events 16
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Eye disorders
Dry eye
|
12.2%
6/49 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Dry mouth
|
12.2%
6/49 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
27.3%
3/11 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
15.8%
3/19 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Dysgeusia
|
24.5%
12/49 • Number of events 13
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Reproductive system and breast disorders
Dyspareunia
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Dyspepsia
|
14.3%
7/49 • Number of events 9
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Dyspnea
|
20.4%
10/49 • Number of events 12
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.4%
4/11 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.8%
7/19 • Number of events 8
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Edema limbs
|
38.8%
19/49 • Number of events 26
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
54.5%
6/11 • Number of events 10
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Epistaxis
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Fatigue
|
51.0%
25/49 • Number of events 47
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
31.6%
6/19 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Fever
|
12.2%
6/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Flank pain
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Flatulence
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Eye disorders
Floaters
|
4.1%
2/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Gastroesophageal reflux disease
|
6.1%
3/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Headache
|
18.4%
9/49 • Number of events 12
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
15.8%
3/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hyperkalemia
|
8.2%
4/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypermagnesemia
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypernatremia
|
4.1%
2/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Vascular disorders
Hypertension
|
16.3%
8/49 • Number of events 15
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Hypertrichosis
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypoalbuminemia
|
73.5%
36/49 • Number of events 64
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
63.6%
7/11 • Number of events 9
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
26.3%
5/19 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypoglycemia
|
10.2%
5/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypokalemia
|
22.4%
11/49 • Number of events 13
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypomagnesemia
|
38.8%
19/49 • Number of events 29
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
27.3%
3/11 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
21.1%
4/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hyponatremia
|
44.9%
22/49 • Number of events 31
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
21.1%
4/19 • Number of events 11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypophosphatemia
|
18.4%
9/49 • Number of events 15
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
21.1%
4/19 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Hypoxia
|
6.1%
3/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Infections and infestations-Other, specify
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Psychiatric disorders
Insomnia
|
8.2%
4/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Laryngeal inflammation
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Lung infection
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Lymphocyte count decreased
|
42.9%
21/49 • Number of events 56
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
42.1%
8/19 • Number of events 9
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Mucositis oral
|
22.4%
11/49 • Number of events 15
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Myalgia
|
10.2%
5/49 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Nasal congestion
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Nausea
|
55.1%
27/49 • Number of events 48
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
27.3%
3/11 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
47.4%
9/19 • Number of events 11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Pain in extremity
|
10.2%
5/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Pain of skin
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Palmar-plantar erythrodysesthesia syndrome
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Palpitations
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Paresthesia
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Paronychia
|
18.4%
9/49 • Number of events 13
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Platelet count decreased
|
28.6%
14/49 • Number of events 23
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
27.3%
3/11 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Pleural effusion
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Productive cough
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Pruritis
|
24.5%
12/49 • Number of events 14
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
26.3%
5/19 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Rash acneiform
|
44.9%
22/49 • Number of events 39
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.4%
4/11 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
42.1%
8/19 • Number of events 14
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Rash maculo-papular
|
55.1%
27/49 • Number of events 51
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
36.4%
4/11 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
42.1%
8/19 • Number of events 12
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Renal and urinary disorders - Other, specify (urinary burning)
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Respiratory, thoracic and mediastinal disorders - Other, specify
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Sinus tachycardia
|
14.3%
7/49 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Skin and subcutaneous tissue disorders-Other, specify
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
15.8%
3/19 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Skin infection
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Skin ulceration
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Stomach pain
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Ear and labyrinth disorders
Tinnitus
|
2.0%
1/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Upper respiratory infection
|
12.2%
6/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Urinary frequency
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Urinary tract infection
|
10.2%
5/49 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Urinary tract pain
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Reproductive system and breast disorders
Vaginal inflammation
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
5.3%
1/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Vomiting
|
38.8%
19/49 • Number of events 38
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Weight loss
|
20.4%
10/49 • Number of events 12
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
10.5%
2/19 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Alkaline phosphatase increased
|
26.5%
13/49 • Number of events 19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
27.3%
3/11 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Arthritis
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Cardiac disorders - Other, specify
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Edema face
|
8.2%
4/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Esophageal pain
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Heart failure
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Vascular disorders
Hematoma
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Hiccups
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Hoarseness
|
8.2%
4/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypercalcemia
|
12.2%
6/49 • Number of events 7
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hyperglycemia
|
10.2%
5/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hyperuricemia
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Malaise
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Mucosal infection
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Myositis
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Neck pain
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Nervous system disorders - Other, specify
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Peripheral sensory neuropathy
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Pneumonitis
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Pneumothorax
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Wheezing
|
10.2%
5/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
White blood cell decreased
|
16.3%
8/49 • Number of events 9
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Respiratory, thoracic and mediastinal disorders
|
0.00%
0/49
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
9.1%
1/11 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Dry skin
|
38.8%
19/49 • Number of events 21
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
18.2%
2/11 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
31.6%
6/19 • Number of events 9
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Psychiatric disorders
Agitation
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Allergic rhinitis
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Arthralgia
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Ataxia
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Bloating
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Eye disorders
Blurred vision
|
20.4%
10/49 • Number of events 13
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Musculoskeletal and connective tissue disorders
Buttock pain
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Psychiatric disorders
Confusion
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Endocrine disorders
Cushingoid
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Cystitis noninfective
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Death NOS
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Dehydration
|
12.2%
6/49 • Number of events 8
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Dizziness
|
26.5%
13/49 • Number of events 14
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Dysesthesia
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Dysphagia
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Ear and labyrinth disorders
Ear pain
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Ejection fraction decreased
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Erythema multiforme
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Esophagitis
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Eye disorders
Eye disorders- Other, specify
|
8.2%
4/49 • Number of events 5
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Eye disorders
Eye pain
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Eye disorders
Eyelid function disorder
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Flu like symptoms
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
Gait disturbance
|
4.1%
2/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Gastric hemorrhage
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Gastrointestinal disorders - Other, specify (bloody stools)
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Gastrointestinal pain
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
General disorders
General disorders and adminstration site conditions - Other, specify
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Hematuria
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Hemorrhoidal hemorrhage
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Hemorrhoids
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Hirsutism
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Hypocalcemia
|
10.2%
5/49 • Number of events 6
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Vascular disorders
Hypotension
|
6.1%
3/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Endocrine disorders
Hypothryoidism
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
INR increased
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Laryngeal hemorrhage
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Left ventricular systolic dysfunction
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Lethargy
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Metabolism and nutrition disorders
Metabolism and nutrition disorders - Other, specify
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Investigations
Neutrophil count decreased
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Oral dysesthesia
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Oral pain
|
4.1%
2/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Otitis externa
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Otitis media
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Periorbital edema
|
6.1%
3/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Periorbital infection
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Postnasal drip
|
4.1%
2/49 • Number of events 4
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Presyncope
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Psychiatric disorders
Psychiatric disorders - Other, specify (emotional)
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Pulmonary edema
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Gastrointestinal disorders
Rectal hemorrhage
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Respiratory failure
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Sinusitis
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Skin and subcutaneous tissue disorders - Other, specify
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Skin and subcutaneous tissue disorders
Skin hyperpigmentation
|
2.0%
1/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Respiratory, thoracic and mediastinal disorders
Sore throat
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Nervous system disorders
Syncope
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Vascular disorders
Thromboembolic event
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Neoplasms benign, malignant and unspecified (incl cysts and polyps)
Tumor pain
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Urinary retention
|
6.1%
3/49 • Number of events 3
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Renal and urinary disorders
Urinary urgency
|
4.1%
2/49 • Number of events 2
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Infections and infestations
Vaginal infection
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Cardiac disorders
Ventricular tachycardia
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Ear and labyrinth disorders
Vertigo
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
|
Eye disorders
Watering eyes
|
2.0%
1/49 • Number of events 1
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/11
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
0.00%
0/19
The combination of toxicities allows for a more robust understanding of the combined therapy toxicities. The dosage of the combination of erlotinib plus AZD6244 was the same whether the pt has a KRAS mutation versus KRAS wild type. KRAS is a molecular mutation and does not change whether or not a pt has toxicities to the combination of therapies.
|
Additional Information
Results disclosure agreements
- Principal investigator is a sponsor employee
- Publication restrictions are in place