Brain Tissue Oxygen Monitoring in Traumatic Brain Injury (TBI)

NCT ID: NCT00974259

Last Updated: 2019-09-26

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: PHASE2
• Total Enrollment: 122 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2009-10-31
• Study Completion Date: 2014-12-31

Brief Summary

Traumatic brain injury (TBI) is a major cause of death and disability, with an estimated cost of 45 billion dollars a year in the United States alone. Every year, approximately 1.4 million sustain a TBI, of which 50,000 people die, and another 235,000 are hospitalized and survive the injury. As a result, 80,000-90,000 people experience permanent disability associated with TBI. This project is designed to determine whether a device designed to measure brain tissue oxygenation and thus detect brain ischemia while it is still potentially treatable shows promise in reducing the duration of brain ischemia, and to obtain information required to conduct a definitive clinical trial of efficacy.

A recently approved device makes it feasible to directly and continuously monitor the partial pressure of oxygen in brain tissue (pBrO2). Several observational studies indicate that episodes of low pBrO2 are common and are associated with a poor outcome, and that medical interventions are effective in improving pBrO2 in clinical practice. However, as there have been no randomized controlled trials carried out to determine whether pBrO2 monitoring results in improved outcome after severe TBI, use of this technology has not so far been widely adopted in neurosurgical intensive care units (ICUs). This study is the first randomized, controlled clinical trial of pBrO2 monitoring, and is designed to obtain data required for a definitive phase III study, such as efficacy of physiologic maneuvers aimed at treating pBrO2, and feasibility of standardizing a complex intensive care unit management protocol across multiple clinical sites.

Patients with severe TBI will be monitored with Intracranial pressure monitoring (ICP) and pBrO2 monitoring, and will be randomized to therapy based on ICP along (control group) or therapy based on ICP in addition to pBrO2 values (treatment group). 182 participants will be enrolled at four clinical sites, the University of Texas Southwestern Medical Center/Parkland Memorial Hospital, the University of Washington/Harborview Medical Center, the University of Miami/Jackson Memorial Hospital, and the University of Pennsylvania/Hospital of the University of Pennsylvania. Functional outcome will be assessed at 6-months after injury.

Detailed Description

Design and Outcomes

This study is a two-arm, single-blind, randomized, controlled, phase II, multi-center pilot trial of the efficacy of pBrO2 monitoring, and is designed to obtain data required for a definitive phase III study, such as efficacy of physiologic maneuvers aimed at normalizing pBrO2. 182 patients with severe TBI who require ICP monitoring will be recruited into this study at 4 clinical sites in the US (Univ. of Texas Southwestern/Parkland Memorial Hospital, Univ. of Washington/Harborview Medical Center, Univ. of Miami/Jackson Memorial Hospital, and Univ. of Pennsylvania/Hospital of the Univ. of Pennsylvania). All patients will have both ICP monitors and pBrO2 monitors inserted through the same burr hole. Half of the patients will be randomized to a treatment protocol based on both ICP and pBrO2 readings, while the control group will be randomized to a treatment protocol based only on ICP readings. The pBrO2monitors of the control arm will be masked, so that the treating physicians will be unaware of the pBrO2 information. Patients will have telephone follow-up interview to assess their level of recovery 6 months post injury, using the Glasgow Outcome Scale-Extended.

Interventions and Duration

Patients randomized to the control group will have pBrO2 implanted in a similar fashion as patients in the treatment group, but after calibration of the device, the display will be covered with opaque tape. Patients in the control will be treated with a protocol based on ICP measures only. Patients in the treatment group (both ICP and pBrO2 measures are visible) will be treated according to a protocol that incorporates both ICP and pBrO2 measures. The treatment protocols are based on current standards of care, but are described in detail to insure uniformity in treatments across the 4 study sites.

The probe will remain in place for a maximum or 5 days, until all values are normal for 48 hours, or sooner if a complication arises. If the patient has normal values, monitors will be removed after 48 hours.

Objectives

Primary Objective: The prescribed treatment protocol, based on pBrO2 monitoring, results in reduction of the fraction of time that brain oxygen levels are below the critical threshold of 20 mm Hg in patients with severe traumatic brain injury.

Secondary Objectives:

• Safety hypotheses: Adverse events associated with pBrO2 monitoring are rare.
• Feasibility hypotheses: Episodes of decreased pBrO2 can be identified and treatment protocol instituted comparably across 4 clinical sites, and protocol violations will be low (<10%) and uniform across different clinical sites.
• Non-futility hypothesis: A relative risk of good outcome measured by the Glasgow Outcome Scale-Extended 6 months after injury of 2.0 is consistent with the results of this phase II study.

Conditions

Severe Traumatic Brain Injury

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: SINGLE

Study Groups

pBrO2 and ICP management

Treatment protocol based on pBrO2 and ICP values.

Group Type: EXPERIMENTAL

Management protocol based on pBrO2 and ICP values.

Intervention Type: DEVICE

For patients who experience falls in pBrO2 below 20 mm Hg, a hierarchical treatment algorithm will be instituted, adapted from published recommendations49. In principle, episodes requiring therapy will fall into one of 4 scenarios (scenario A, B, C, and D, defined in figure 7), which will require different management strategies. The treatment protocol depends on which type of episode is being treated. Treatment is triggered by abnormalities in either ICP (\> 20 mm Hg) or pBrO2 (\< 20 mm Hg) are noted. Elevations in ICP above 20 mm Hg or decline in pBrO2 below 20 mm Hg for more than 5 minutes will trigger a treatment intervention. Treatment is directed to an episode. Patients may start in one type of episode and move to another. Therapy will depend on which type of episode they are in at any given time.

ICP management

Treatment protocol based on ICP values only.

Group Type: ACTIVE_COMPARATOR

Management protocol based on ICP values only.

Intervention Type: DEVICE

For the patients randomized to ICP treatment alone, only Scenario A and Scenario B episodes are relevant.

Interventions

Management protocol based on pBrO2 and ICP values.

For patients who experience falls in pBrO2 below 20 mm Hg, a hierarchical treatment algorithm will be instituted, adapted from published recommendations49. In principle, episodes requiring therapy will fall into one of 4 scenarios (scenario A, B, C, and D, defined in figure 7), which will require different management strategies. The treatment protocol depends on which type of episode is being treated. Treatment is triggered by abnormalities in either ICP (\> 20 mm Hg) or pBrO2 (\< 20 mm Hg) are noted. Elevations in ICP above 20 mm Hg or decline in pBrO2 below 20 mm Hg for more than 5 minutes will trigger a treatment intervention. Treatment is directed to an episode. Patients may start in one type of episode and move to another. Therapy will depend on which type of episode they are in at any given time.

Intervention Type: DEVICE

Management protocol based on ICP values only.

For the patients randomized to ICP treatment alone, only Scenario A and Scenario B episodes are relevant.

Intervention Type: DEVICE

Other Intervention Names

Licox; Camino; Camino

Eligibility Criteria

Inclusion Criteria

1. Non-penetrating traumatic brain injury

2. Requirement for intracranial pressure monitoring according to Guidelines for the Management of Severe TBI, as operationalized below:

• GCS 3-8 (measured off sedatives or paralytics) with abnormal CT scan. If patient is intubated, motor GCS < 4 required.
• If CT scan normal, motor GCS < 4 (measured off sedatives or paralytics)
• Intoxication is not a reason for deferring ICP monitoring if above criteria are met.
• If the patient has a witnessed seizure, wait 30 minutes to evaluate GCS.

3. Randomization and placement of monitors within 12 hours of injury.

4. Males and females Age 18-70 years, English or Spanish speaking patients.

Exclusion Criteria

1. Specific clinical contraindications:

• GCS motor score > 4 with normal CT scan
• Bilaterally absent pupillary responses

2. Laboratory contraindications per safety considerations:

Coagulopathy that makes insertion of parenchymal monitors contraindicated (Platelets < 50,000/mL, INR > 1.4) (Enrollment allowed if coagulopathy can be corrected before 12 hour post-injury deadline).

3. Pregnant females will be excluded. Blood test for pregnancy is a routine part of care in ED's. However, if not done, a urine or blood test will be done as a safety precaution after consent but prior to study treatment.

4. Monitoring with pBrO2 monitor prior to randomization.

5. Clinical, demographic and other characteristics that precludes appropriate diagnosis, treatment or follow-up in the trial.

• Systemic sepsis at the time of screening
• Refractory hypotension (SBP < 70 mm Hg for > 30 minutes)
• Refractory systemic hypoxia (paO2 < 60 mm Hg on FiO2 < 0.5)
• Evidence of premorbid disabling conditions that interfere with outcome assessment. These include diagnosis of Alzheimer's disease, Parkinson's disease, multiple sclerosis, spinal cord injury with deficits, history of stroke, brain tumors, chronic use of medication for disabling neurologic or psychiatric disorder, or history of suicide attempt within the past year.
• Imminent death or current life-threatening disease
• Prisoner
• Individuals who hold religious beliefs against blood transfusion
• Previous TBI hospitalization greater than 1 day
• Patients who are unlikely to be available for follow-up interview, even by telephone. for example, patients who are homeless, illegal aliens, or live in foreign countries and those with whom future personal (including family) or telephone contact is unlikely.

6. Active drug or alcohol use or dependence that, in the opinion of the stie investigator, would interfere with follow-up.

7. Imminent death or current life-threatening disease

8. Inability or unwillingness of subject or legal guardian/representative to give written informed consent

9. Participation in other observational or interventional clinical trials is allowed as long as the PI of each study agree ahead of time to allow co-enrollment.

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 70 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

University of Washington

OTHER

Sponsor Role: collaborator

University of Miami

OTHER

Sponsor Role: collaborator

University of Pittsburgh

OTHER

Sponsor Role: collaborator

Duke University

OTHER

Sponsor Role: collaborator

Ohio State University

OTHER

Sponsor Role: collaborator

Temple University

OTHER

Sponsor Role: collaborator

Thomas Jefferson University

OTHER

Sponsor Role: collaborator

University of Cincinnati

OTHER

Sponsor Role: collaborator

National Institute of Neurological Disorders and Stroke (NINDS)

NIH

Sponsor Role: collaborator

University of Pennsylvania

OTHER

Sponsor Role: lead

Responsible Party

Ramon Diaz-Arrastia

Professor of Neurology

Responsibility Role: PRINCIPAL_INVESTIGATOR

Locations

University of Miami/Jackson Memorial Hospital

Miami, Florida, United States

Duke University

Durham, North Carolina, United States

University of Cincinnati

Cincinnati, Ohio, United States

Ohio State University

Columbus, Ohio, United States

University of Pennsylvania

Philadelphia, Pennsylvania, United States

Temple University

Philadelphia, Pennsylvania, United States

Thomas Jefferson University

Philadelphia, Pennsylvania, United States

University of Pittsburgh

Pittsburgh, Pennsylvania, United States

University of Texas Southwestern Medical Center

Dallas, Texas, United States

University of Washington/Harborview Medical Center

Seattle, Washington, United States

Countries

United States

References

Okonkwo DO, Shutter LA, Moore C, Temkin NR, Puccio AM, Madden CJ, Andaluz N, Chesnut RM, Bullock MR, Grant GA, McGregor J, Weaver M, Jallo J, LeRoux PD, Moberg D, Barber J, Lazaridis C, Diaz-Arrastia RR. Brain Oxygen Optimization in Severe Traumatic Brain Injury Phase-II: A Phase II Randomized Trial. Crit Care Med. 2017 Nov;45(11):1907-1914. doi: 10.1097/CCM.0000000000002619.

Reference Type: RESULT

PMID: 29028696 (View on PubMed)

Other Identifiers

R01NS061860

Identifier Type: NIH

Identifier Source: secondary_id

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R01NS061860-01A2

Identifier Type: NIH

Identifier Source: secondary_id

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R01NS061860

Identifier Type: NIH

Identifier Source: org_study_id

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