Antimicrobial Therapeutic Drug Monitoring During Lung Transplant Perioperative Phase
NCT ID: NCT06583642
Last Updated: 2025-05-22
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.
Recruitment Status
NOT_YET_RECRUITING
Total Enrollment
20 participants
Study Classification
OBSERVATIONAL
Study Start Date
2025-07-01
Study Completion Date
2027-03-01
Brief Summary
Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.
Background: Post-LUTX pneumonia represents a leading cause of death along the first month after LUTX. Donor-derived transmission of pathogenic species occurs up to 25% of recipients receiving a graft with a positive BAL culture, despite in-vitro adequate antimicrobial prophylaxis.
Hypothesis: LUTX recipients are either exposed to suboptimal antimicrobial doses or antimicrobial penetration into the lug parenchyma is altered either due to surgery (absence of bronchial anastomoses) or to the hyperinflammatory state.
Methods: LUTX recipients admitted to the intensive care unit at the Fondazione IRCCS Ca' Granda Policlinico Hospital. According to the institutional perioperative prophylaxis protocol and the donor/recipient ecology the most frequent antimicrobial molecules administered will be: cefepime, vancomycin, and meropenem. Antimicrobial pharmacokinetics will be investigated at three timepoints. Plasma levels of the ongoing antimicrobial molecule will be assessed at ICU admission, on postoperative day 1 and on postoperative day 3. Bronchoalveolar lavage (BAL) samples for the measurement of BAL antimicrobial levels will be collected during the BAL performed for clinical indication on postoperative day 1 and on postoperative day 3.
Absolute plasma and BAL antimicrobial levels will be assessed. The ratio of BAL to plasma dosage of antimicrobial will be assessed to evaluate antimicrobial penetration within the target tissue. Correlation between both plasma and BAL antimicrobial dosage and recipients' postoperative fluid balance, body weight, vasopressor requirement, renal function will be performed.
Hypothesis: LUTX recipients are either exposed to suboptimal antimicrobial doses or antimicrobial penetration into the lug parenchyma is altered either due to surgery (absence of bronchial anastomoses) or to the hyperinflammatory state.
Methods: LUTX recipients admitted to the intensive care unit at the Fondazione IRCCS Ca' Granda Policlinico Hospital. According to the institutional perioperative prophylaxis protocol and the donor/recipient ecology the most frequent antimicrobial molecules administered will be: cefepime, vancomycin, and meropenem. Antimicrobial pharmacokinetics will be investigated at three timepoints. Plasma levels of the ongoing antimicrobial molecule will be assessed at ICU admission, on postoperative day 1 and on postoperative day 3. Bronchoalveolar lavage (BAL) samples for the measurement of BAL antimicrobial levels will be collected during the BAL performed for clinical indication on postoperative day 1 and on postoperative day 3.
Absolute plasma and BAL antimicrobial levels will be assessed. The ratio of BAL to plasma dosage of antimicrobial will be assessed to evaluate antimicrobial penetration within the target tissue. Correlation between both plasma and BAL antimicrobial dosage and recipients' postoperative fluid balance, body weight, vasopressor requirement, renal function will be performed.
Related Clinical Trials
Explore similar clinical trials based on study characteristics and research focus.
Predictive Factors of Good Pulmonary Penetration of Antibiotics : AntiBiotics Dosage in Broncho-Alveolar Lavage
NCT03927079
Antibiotics
Pneumonia
ACTIVE_NOT_RECRUITING
NA
Defining Antibiotic Treatment Duration for Ventilator - Associated Lung Infection
NCT03382548
Ventilator Associated Pneumonia
Pneumonia, Bacterial
COMPLETED
PHASE3
Antibiotic Therapy for Hospital-Acquired Infections in ICU Patients
NCT00543894
Infection in ICU
COMPLETED
Direct E-test on Bronchoalveolar Lavage From Patients With Ventilator-acquired Pneumonia
NCT01042353
Ventilator Acquired Pneumonia
COMPLETED
PHASE4
Conventional Antibiotic Prophylaxis Versus Add-On 5 Days Levofloxacin Before Percutaneous Nephrolithotomy
NCT03178292
Percutaneous Nephrolithotomy
Infection
Sepsis
+1 more
UNKNOWN
NA
Detailed Description
Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.
1. BACKGROUND
Lung Transplantation (LUTX) is the curative treatment for selected patients with end-stage lung disease. Despite continuous optimization of recipients perioperative phase morbidity and mortality remain about 20%. Bacterial infections are a leading cause of death in the early post-transplant period.
Donor-recipient transmission of pathogens plays an actual role in worsening graft function. The rate of donor with bacterial growth on the pre-LUTX bronchoalveolar lavage (BAL) is high (36%).Furthermore, among uncolonized recipients, receiving a graft with a positive BAL carries the risk of developing a donor-derived infection (DDI) in almost one quarter of cases, affecting early graft function, despite recipients were already treated with an "in-vitro appropriate" antibiotic therapy. In this scenario, the adequacy of perioperative antimicrobial prophylaxis might play a major in preventing either donor derived pulmonary or surgical site infections.
Aim of the present study is to describe the PK of the most frequently used perioperative antimicrobials (i.e., cefepime, meropenem, and vancomycin) in plasma and in the bronchoalveolar lavage of patients undergoing double LUTX during the immediate postoperative phase.
2. HYPOTHESIS of the study
Hypothesis of the study is that LUTX recipients are either exposed to suboptimal antimicrobial doses or antimicrobial penetration into the lug parenchyma is altered either due to surgery (absence of bronchial anastomoses) or to the hyperinflammatory state.
Objective of the study is to describe and model the PK of cefepime, meropenem, and vancomycin in adult patients undergone primary double LUTX.
3 METHODS
Prospective observational single-center pharmacological biological no-profit study.
3.1 Primary Endpoints PK/PD of cefepime, vancomycin and meropenem in adult patients undergone primary double lung transplant.
3.2 Secondary Endpoints
1. To measure the ratio between BAL fluid and plasma antibiotic level of antimicrobials in order to quantify the antimicrobial penetration into the lung tissue
2. To identify the clinical factors correlated to subtherapeutic suboptimal exposure of antimicrobials in LUTX recipients perioperative phase
3.3 Setting The study will be carried out in the Institutional ICU (General Intensive Care Unit, E.Vecla), as well as the thoracic surgery and pneumology unit.
4 PROCEDURES
Participation in the study will not change the standard enlistment protocol, the surgery procedure, or anesthesiologic management.
4.1 Drug Administration
All the patients will be treated as per standard clinical management. In particular, vancomycin, cefepime, and meropenem will be provided to the patients as per their international approved and Italian (Agenzia Italiana del Farmaco) indications, following their drug information leaflet, at discretion of the caring physician.
In particular:
* Cefepime represents the Institutional molecule of choice for perioperative prophylaxis. A loading dose of 2g is administered before surgical incision and repeated every 4 hours along surgery. Additional 1g dose is administered whenever severe bleeding (\>1.5Lt) occurs or ECMO support is required. Postoperatively, at ICU admission, a continuous infusion of 6g/day is started and then prosecuted, stopped or modified according to the result of the mPCR on BAL performed on the 3rd postoperative day. Dose adjustment will be performed by the treating physician according to daily measured patients' creatinine clearance.
* Vancomycin is administered before surgical incision at a dose 15mg/Kg and not repeated throughout surgery. Whenever either donor or recipient BAL will test positive for methicillin resistant staphylococcus aureus Vancomycin treatment will be started at a dose of 25mg/kg loading dose followed by continuous infusion of 20mg/kg. Daily plasma level will be assessed by the treating physician and dose adjustment will be performed accordingly.
* Meropenem will be started whenever either the donor or the recipient's BAL will test positive for CTX-M mechanism of antimicrobial resistance. Meropenem will be administered with a loading dose of 2g followed by a continuous infusion of 6g/day. Dose adjustment will be performed by the treating physician according to daily measured patients' creatinine clearance.
4.2 Study Procedures
Once admitted to the Intensive Care Unit patients a continuous infusion of cefepime (6g/day) will be started. A 4 ml blood sample remnant (from the daily blood lab tests performed in the ICU) will be collected for the measurement of antimicrobial plasma level immediately after surgery. The blood sample will be centrifuged at 4°C, 3000 rpm for 15 min. Plasma sample, collected in a deidentified cryovial, will be stored at -80°C in a refrigerator located in the Intensive Care Unit. Simultaneously, measurement of patient weight, arterial and venous blood gas analysis (to calculate intrapulmonary shunt) and lung mechanics (i.e. static lung compliance) will be performed.
Similarly the first morning and at 72h after LUTX, the thoracic surgeon will perform a bronchoscopy to check for the integrity of bronchial anastomosis and will perform a surveillance BAL which will be processed for both fast and standard microbiological tests. At each BAL performed 4 mL of discard BAL sample will be collected for the measurement of BAL antimicrobial level. Simultaneously to the BAL, a 4 ml blood sample remnant (from the daily blood lab tests performed in the ICU) will be collected for the measurement of antimicrobial plasma level. The blood sample will be centrifuged at 4°C, 3000 rpm for 15 min. Plasma sample, collected in a deidentified cryovial, will be stored at -80°C in a refrigerator located in the Intensive Care Unit. Simultaneously, measurement of patient weight, arterial and venous blood gas analysis (to calculate intrapulmonary shunt) and lung mechanics (i.e. static lung compliance) will be performed. Renal function (i.e. creatinine clearance and fraction of excreted urea and sodium), measured daily in the Intensive Care Unit, will be collected. A chest X-Ray, performed per clinical practice to grade Primary graft dysfunction at 24 and 72 hours after LUTX, will be collected.
In summary, to carry out the PK study, we will collect a total amount of 12 mL of blood, and 8 mL of bronchoalveolar lavage. Those samples will be transferred to the collaborating center (Ospedale Luigi Sacco), and analyzed for PK study, as follows:
* Blood samples will be collected: at ICU admission, the first morning after LuTx and at 72h after LUTX. Each blood sample (4 mL) will be centrifuged, and plasma samples stored at -20°C until analysis;
* Bronchoalveolar lavage samples will be collected exclusively first morning after LuTx and at 72h after LUTX. Each BAL sample (4 mL) will be centrifuged, and supernatant samples stored at -20°C until analysis.
Thus, cryopreserved samples will be shipped to the collaborating center (ASST Fatebenefratelli Sacco, University Hospital, Milan, Italy) at the end of the recruitment period, and thus tests will be performed. The antibiotic concentrations will be determined using an ultra-performance liquid chromatography-tandem mass spectrometry method (LC-MS/MS). After purification through precipitation and dilution with a solution of methanol, acetonitrile, and water with 0.1% formic acid, 1µL will be injected. The chromatographic separation will be achieved using a gradient (acetonitrile and water with formic acid 0.1%) on a reversed-phase analytical column (acuity UPLC BEH C18 1.70lm2.1%50mm; Waters, Milan, Italy). For quantification, the analysis will be performed in ESI-positive mode. Then, PK modeling will be carried out as previously done by the collaborating center.
Lung Transplantation (LUTX) is the curative treatment for selected patients with end-stage lung disease. Despite continuous optimization of recipients perioperative phase morbidity and mortality remain about 20%. Bacterial infections are a leading cause of death in the early post-transplant period.
Donor-recipient transmission of pathogens plays an actual role in worsening graft function. The rate of donor with bacterial growth on the pre-LUTX bronchoalveolar lavage (BAL) is high (36%).Furthermore, among uncolonized recipients, receiving a graft with a positive BAL carries the risk of developing a donor-derived infection (DDI) in almost one quarter of cases, affecting early graft function, despite recipients were already treated with an "in-vitro appropriate" antibiotic therapy. In this scenario, the adequacy of perioperative antimicrobial prophylaxis might play a major in preventing either donor derived pulmonary or surgical site infections.
Aim of the present study is to describe the PK of the most frequently used perioperative antimicrobials (i.e., cefepime, meropenem, and vancomycin) in plasma and in the bronchoalveolar lavage of patients undergoing double LUTX during the immediate postoperative phase.
2. HYPOTHESIS of the study
Hypothesis of the study is that LUTX recipients are either exposed to suboptimal antimicrobial doses or antimicrobial penetration into the lug parenchyma is altered either due to surgery (absence of bronchial anastomoses) or to the hyperinflammatory state.
Objective of the study is to describe and model the PK of cefepime, meropenem, and vancomycin in adult patients undergone primary double LUTX.
3 METHODS
Prospective observational single-center pharmacological biological no-profit study.
3.1 Primary Endpoints PK/PD of cefepime, vancomycin and meropenem in adult patients undergone primary double lung transplant.
3.2 Secondary Endpoints
1. To measure the ratio between BAL fluid and plasma antibiotic level of antimicrobials in order to quantify the antimicrobial penetration into the lung tissue
2. To identify the clinical factors correlated to subtherapeutic suboptimal exposure of antimicrobials in LUTX recipients perioperative phase
3.3 Setting The study will be carried out in the Institutional ICU (General Intensive Care Unit, E.Vecla), as well as the thoracic surgery and pneumology unit.
4 PROCEDURES
Participation in the study will not change the standard enlistment protocol, the surgery procedure, or anesthesiologic management.
4.1 Drug Administration
All the patients will be treated as per standard clinical management. In particular, vancomycin, cefepime, and meropenem will be provided to the patients as per their international approved and Italian (Agenzia Italiana del Farmaco) indications, following their drug information leaflet, at discretion of the caring physician.
In particular:
* Cefepime represents the Institutional molecule of choice for perioperative prophylaxis. A loading dose of 2g is administered before surgical incision and repeated every 4 hours along surgery. Additional 1g dose is administered whenever severe bleeding (\>1.5Lt) occurs or ECMO support is required. Postoperatively, at ICU admission, a continuous infusion of 6g/day is started and then prosecuted, stopped or modified according to the result of the mPCR on BAL performed on the 3rd postoperative day. Dose adjustment will be performed by the treating physician according to daily measured patients' creatinine clearance.
* Vancomycin is administered before surgical incision at a dose 15mg/Kg and not repeated throughout surgery. Whenever either donor or recipient BAL will test positive for methicillin resistant staphylococcus aureus Vancomycin treatment will be started at a dose of 25mg/kg loading dose followed by continuous infusion of 20mg/kg. Daily plasma level will be assessed by the treating physician and dose adjustment will be performed accordingly.
* Meropenem will be started whenever either the donor or the recipient's BAL will test positive for CTX-M mechanism of antimicrobial resistance. Meropenem will be administered with a loading dose of 2g followed by a continuous infusion of 6g/day. Dose adjustment will be performed by the treating physician according to daily measured patients' creatinine clearance.
4.2 Study Procedures
Once admitted to the Intensive Care Unit patients a continuous infusion of cefepime (6g/day) will be started. A 4 ml blood sample remnant (from the daily blood lab tests performed in the ICU) will be collected for the measurement of antimicrobial plasma level immediately after surgery. The blood sample will be centrifuged at 4°C, 3000 rpm for 15 min. Plasma sample, collected in a deidentified cryovial, will be stored at -80°C in a refrigerator located in the Intensive Care Unit. Simultaneously, measurement of patient weight, arterial and venous blood gas analysis (to calculate intrapulmonary shunt) and lung mechanics (i.e. static lung compliance) will be performed.
Similarly the first morning and at 72h after LUTX, the thoracic surgeon will perform a bronchoscopy to check for the integrity of bronchial anastomosis and will perform a surveillance BAL which will be processed for both fast and standard microbiological tests. At each BAL performed 4 mL of discard BAL sample will be collected for the measurement of BAL antimicrobial level. Simultaneously to the BAL, a 4 ml blood sample remnant (from the daily blood lab tests performed in the ICU) will be collected for the measurement of antimicrobial plasma level. The blood sample will be centrifuged at 4°C, 3000 rpm for 15 min. Plasma sample, collected in a deidentified cryovial, will be stored at -80°C in a refrigerator located in the Intensive Care Unit. Simultaneously, measurement of patient weight, arterial and venous blood gas analysis (to calculate intrapulmonary shunt) and lung mechanics (i.e. static lung compliance) will be performed. Renal function (i.e. creatinine clearance and fraction of excreted urea and sodium), measured daily in the Intensive Care Unit, will be collected. A chest X-Ray, performed per clinical practice to grade Primary graft dysfunction at 24 and 72 hours after LUTX, will be collected.
In summary, to carry out the PK study, we will collect a total amount of 12 mL of blood, and 8 mL of bronchoalveolar lavage. Those samples will be transferred to the collaborating center (Ospedale Luigi Sacco), and analyzed for PK study, as follows:
* Blood samples will be collected: at ICU admission, the first morning after LuTx and at 72h after LUTX. Each blood sample (4 mL) will be centrifuged, and plasma samples stored at -20°C until analysis;
* Bronchoalveolar lavage samples will be collected exclusively first morning after LuTx and at 72h after LUTX. Each BAL sample (4 mL) will be centrifuged, and supernatant samples stored at -20°C until analysis.
Thus, cryopreserved samples will be shipped to the collaborating center (ASST Fatebenefratelli Sacco, University Hospital, Milan, Italy) at the end of the recruitment period, and thus tests will be performed. The antibiotic concentrations will be determined using an ultra-performance liquid chromatography-tandem mass spectrometry method (LC-MS/MS). After purification through precipitation and dilution with a solution of methanol, acetonitrile, and water with 0.1% formic acid, 1µL will be injected. The chromatographic separation will be achieved using a gradient (acetonitrile and water with formic acid 0.1%) on a reversed-phase analytical column (acuity UPLC BEH C18 1.70lm2.1%50mm; Waters, Milan, Italy). For quantification, the analysis will be performed in ESI-positive mode. Then, PK modeling will be carried out as previously done by the collaborating center.
Conditions
See the medical conditions and disease areas that this research is targeting or investigating.
Lung Transplant Infection
Pneumonia, Bacterial
Antibiotic Resistant Strain
Study Design
Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.
Observational Model Type
COHORT
Study Time Perspective
PROSPECTIVE
Eligibility Criteria
Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.
Inclusion Criteria
* Recipient of LUTX
* Age \> 18 years
* Signed informed consent
* Age \> 18 years
* Signed informed consent
Exclusion Criteria
* Age \< 18 years old
* Already undergone LUTX
* Documented respiratory colonization in the 12 months preceding LUTX
* Undergoing any antimicrobial therapy preceding LUTX
* Documented post-LUTX endobronchial plasma leak requiring high levels of PEEP \> 15 cmH2O.
* Already undergone LUTX
* Documented respiratory colonization in the 12 months preceding LUTX
* Undergoing any antimicrobial therapy preceding LUTX
* Documented post-LUTX endobronchial plasma leak requiring high levels of PEEP \> 15 cmH2O.
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
Meet the organizations funding or collaborating on the study and learn about their roles.
Policlinico Hospital
OTHER
Sponsor Role
lead
Responsible Party
Identify the individual or organization who holds primary responsibility for the study information submitted to regulators.
Giacomo Grasselli
MD
Responsibility Role
PRINCIPAL_INVESTIGATOR
Locations
Explore where the study is taking place and check the recruitment status at each participating site.
Fondazione IRCCS Ca'Granda - Ospedale Maggiore Policlinico
Milan, Milan, Italy
Site Status
Countries
Review the countries where the study has at least one active or historical site.
Italy
Central Contacts
Reach out to these primary contacts for questions about participation or study logistics.
Other Identifiers
Review additional registry numbers or institutional identifiers associated with this trial.
ATB_LuTx
Identifier Type: -
Identifier Source: org_study_id
More Related Trials
Additional clinical trials that may be relevant based on similarity analysis.
Prevalence of Multi-Drug Resistant Bacteria in Long-term Care Facilities
NCT07234734
COMPLETED
Adherence to Guidelines for Antibiotic Use in Respiratory Infections at Hospitals
NCT00129883
COMPLETED
NA
Post-operative Antibiotics; Effects on Risk of Infection After Cochlear Implant Surgery
NCT06177444
ACTIVE_NOT_RECRUITING
Use of Microscopy, Cultures and Molecular Biological Methods for Diagnosing Nosocomial Pneumonia
NCT04279873
COMPLETED
Determining Drug Levels of Beta-lactam Antibiotics in Severe Burned Patients
NCT03335137
COMPLETED
Antimicrobial Stewardship in UTIs in Nursing Homes
NCT04798365
COMPLETED
NA
Efficacy and Safety of Selective Digestive Decontamination in the ICU With High Rates of Antibiotic-resistant Bacteria
NCT04839653
UNKNOWN
NA
Empiric Antibiotic Therapy for Ventilator-acquired Pneumonia With Gram-negative Bacilli in Intensive Care
NCT02127528
UNKNOWN
Ventilator Associated Pneumonia Multiplex PCR for Anti-Infective Regimens
NCT06554327
RECRUITING
NA
Antibiotic Treatment for Pneumonia Caused by Stenotrophomonas Maltophilia in ICU Patients
NCT07052604
RECRUITING
DetermInants of Antimicrobial Use aNd De-escalAtion in Critical Care
NCT03664245
UNKNOWN
Impact of Direct Antimicrobial Susceptibility Testing on Respiratory Sample of Intensive Care Patient With Suspected VAP
NCT02897466
UNKNOWN
NA
Pulmonary Diffusion of Antibiotics in Patients Admitted for ARDS Following SARS-CoV-2 Pneumonia
NCT05464680
COMPLETED
NA
Impact of Number of Rank of B-lactam Antibiotics on Emergence on Multidrug Resistant Bacteria
NCT03752476
UNKNOWN
Optimizing Antibiotic Use in Long Term Care
NCT00243360
COMPLETED
NA
Structural and Microbiological Characterization of Endotracheal Tube Biofilm in Patients at Increased Risk for the Development of Ventilator-associated Pneumonia in the Intensive Care Unit
NCT04926493
COMPLETED
Immediate Versus Substantiated Antibiotic Therapy in Suspected Non-Severe Ventilator-Associated Pneumonia
NCT06743529
RECRUITING
NA
Nurse-led Antimicrobial Stewardship Intervention to Increase Antibiotic Appropriateness in Residential Aged Care Facilities
NCT03941509
UNKNOWN
NA
Reduction of Bacterial Resistance With Inhaled Antibiotics in the Intensive Care Unit
NCT01878643
COMPLETED
EARLY_PHASE1
Antibiograms of Intensive Care Units at an Egyptian Tertiary Care Hospital
NCT04318613
COMPLETED
Oropharyngeal and Nasopharyngeal Decontamination With Chlorhexidine Gluconate in the Reduction of the Postoperative Morbidity and Mortality After Major Pulmonary Resections
NCT01613365
COMPLETED
PHASE3
Glycocalyx Damage and Beta-lactam Antibiotics in Surgical Critically Ill
NCT03136796
COMPLETED
Strategy to Prevent Transmission of Multidrug-resistant Gram-negative Organisms in ICU
NCT03980197
UNKNOWN
NA
A Cohort Study on Anti-microbial Stewardship in PICU
NCT05862688
NOT_YET_RECRUITING
Antimicrobials Stewardship by Pharmacist
NCT02768454
UNKNOWN