Hyperbaric Oxygen Therapy in Acute Ischemic Stroke Ischemic Stroke Recovery (Pro00061930)

Not Applicable

Recruiting

• Conditions: Acute Ischemic Stroke
• Interventions: Device: Hyperbaric Oxygen Therapy

• Registration Number: NCT06148285
• Lead Sponsor: LCMC Health

Brief Summary

This study will critically examine the feasibility, safety and efficacy of HBOT during inpatient rehabilitation (IPR) after acute ischemic stroke measured by non-disruption of 3 hours of daily therapy, frequency of neurological deterioration or complications (seizure, hemorrhage, brain edema), and functional communication, activities of daily living (ADLs) and mobility.

Detailed Description

Preclinical studies support that HBOT augments several adaptive mechanisms following ischemic stroke, including neuroplasticity, cerebral angiogenesis, and regeneration of nerve fibers. The earlier the treatment, the greater potential for a therapeutic effect. However, logistical issues and safety concerns have prevented application of HBOT in the hyperacute window, particularly when coupled with recanalization therapy as the risk of hemorrhagic conversion is highest, monitoring intervals are short, and the natural history is being altered by another treatment. By enrolling patients who are in the subacute phase of stroke who are admitted to an inpatient rehab facility, the risk of HBOT is lower, monitoring intervals are longer, and the selected population has newly acquired and targetable stroke-related disability. Further, the patients are in a supervised setting and available for daily one-hour treatments without disrupting their intensive multidisciplinary rehab plan thereby minimizing nonadherence to daily treatments. Neuroimaging supports that injured, but not dead, brain cells can persist for months after an ischemic event. Hypoxia mediates cellular activity and death through multiple mechanisms. Ongoing decrease in oxygenation to the damaged area due to impaired blood flow works against cellular repair, recovery, and development of new synaptic connections. Increasing oxygen availability has been considered as an obvious treatment for stroke. HBOT has the potential to facilitate the recovery of injured or inactive neurons through increased blood flow and oxygen delivery.

Study Timeline

• Study Start: 2022-05-24
• Study First Submitted: 2023-07-22
• Status Verified: 2023-11
• Study First Submitted QC: 2023-11-19
• Last Update Submitted: 2023-11-19
• Study First Posted: 2023-11-28
• Last Update Posted: 2023-11-28
• Primary Completion: 2026-12-31
• Study Completion: 2026-12-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 120

Inclusion Criteria

• Age 18 years and above
• Ischemic stroke proven on neuroimaging
• Within 7-30 days post-stroke on day 1 of treatment
• Admitted to Touro Inpatient Rehab Facility

Exclusion Criteria

• Pre-stroke modified Rankin Scale Score >2
• Parenchymal hemorrhagic transformation (PH1 or PH2)
• Receptive aphasia such that recommendations for preventative measures to mitigate barotrauma cannot be followed
• History of recurrent and unprovoked seizures requiring a change in management in the last 3 months to control seizures
• Pulmonary disease requiring supplemental oxygen or daily respiratory medication management (metered dose inhalers, nebulized treatment or steroids)

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
21% oxygen under 1.14ATA	Hyperbaric Oxygen Therapy	For sham-control; ischemic stroke patients will undergo placement in the hyperbaric oxygen chamber for the same duration of time (60 minutes x10 treatments, Monday-Friday of two sequential weeks) and pressure maintained at 1.14 ATA with 21% oxygen (room air), a non-therapeutic dose of HBOT that sufficiently increases pressure to simulate ear popping, hence maintaining participants blinded to the intervention / sham.
100% oxygen under 2.0ATA	Hyperbaric Oxygen Therapy	The first intervention arm consists of ischemic stroke patients who would undergo HBOT at 2.0 ATA with 100% oxygenation for 60 minutes x10 treatments (Monday-Friday of two sequential weeks).
21% oxygen under 2.0ATA	Hyperbaric Oxygen Therapy	The second intervention arm would consist of ischemic stroke patients undergoing HBOT at 2.0 ATA with 21% oxygen (room air) for 60 minutes x10 treatments (Monday-Friday of two sequential weeks).

Primary Outcome Measures

Name	Time	Method
Safety outcome 2; barotrauma	2 weeks	Barotrauma as diagnosed by clinical exam: AD vs. control group ≤ 10%.
Efficacy outcome; change in total and subcomponents of functional independence measure (FIM)	2 weeks	Difference in the total, motor, and cognitive functional independence measure (FIM) scores between the three arms at the end of respective treatment blocks (2 - week period). Additional analyses for change in the FIM score will also be conducted.
Feasibility outcome; proportion of patients who complete HBOT sessions	2 weeks	At least 80% of enrolled patients will be able complete all planned HBOT sessions. HBOT will not directly influence a reduction in quantity or quality of prescribed standard of care rehabilitative therapy.
Safety outcome 1; ear pain	2 weeks	Mild to moderate ear pain: absolute difference (AD) vs. control group ≤ 20%.
Safety outcome 3; any other serious adverse event	2 weeks	any of the following absolute difference (AD) vs. control group ≤ 20%: neurological worsening (increase in NIHSS at least 4 points), symptomatic intracranial hemorrhage (parenchymal hemorrhage with neurological worsening), status epilepticus, pulmonary dysfunction (Defined as: respiratory sx requiring supplemental O2, breathing treatment, or evident of pneumothorax or pneumonia on chest imaging performed to evaluate respiratory sx), or death attributed to intervention.

Secondary Outcome Measures

Name	Time	Method
Per-protocol analysis; change in total and subcomponents of functional independence	2 weeks	Per-protocol analysis comparing total and sub-component FIM scores among HBOT treated and non-HBOT treated patients who completed all HBOT treatment as per the study protocol.; Comparison of FIM sub-scores on the FIM functional and cognitive sub-scales. Adjusted estimates of effect of HBOT treatment after controlling for stroke severity (NIHSS), age, pre-morbid mRS evaluated via generalized linear modeling Sub-group analyses for age, sex, race, stroke severity (NIHSS), stroke etiology (TOAST criteria), cortical vs. sub-cortical strokes, pre-morbid disability (pre-morbid mRS)
Long-term outcome; 90-day good functional outcome vs. significant to severe disability or death	90 days	We will compare the proportions of HBOT and non-HBOT treated patients who achieve a 90-day mRS of 0 - 2 (good functional outcome) vs. 3 - 6 (Significant to severe disability or death - SSD) based on intent to treat populations. Additional analyses for the 90-day mRS would include Per-protocol analysis comparing 90-day mRS among HBOT treated and non-HBOT treated patients who completed all HBOT treatments as per the study protocol.
Long-term outcome; 90-day functional outcome evaluated as ordinal shift in the modified Rankin Scale	90 days	Ordinal shift in 90-Day mRS across the full scale of mRS for HBOT treated patients vs. non-HBOT treated patients - based on intent to treat and per protocol populations.
Long-term outcome; Adjusted 90-day functional outcome evaluated as ordinal shirt in the modified Rankin Scale	90 days	Adjusted estimates of effect of HBOT treatment after controlling for stroke severity (NIHSS), age, pre-morbid mRS evaluated via ordinal regression models for proportional differences between treated and non-treated patients - based on intent to treat and per protocol populations.
Long-term outcome; Sub group analyses to evaluate heterogeneity of treatment effect for 90-day outcome	90 days	Sub-group analyses for age, sex, race, stroke severity (NIHSS), stroke etiology (TOAST criteria), cortical vs. sub-cortical strokes, pre-morbid disability (pre-morbid mRS)
Long-term outcome; Adjusted 90-day good functional outcome vs. significant to severe disability or death	90 days	Adjusted estimates of effect of HBOT treatment after controlling for stroke severity (NIHSS), age, pre-morbid mRS evaluated via logistic regression - based on intent to treat and per protocol populations.
Adjusted HBOT treatment effect	2 weeks	Adjusted estimates of effect of HBOT treatment after controlling for stroke severity (NIHSS), age, pre-morbid mRS evaluated via generalized linear modeling
Sub group analyses to evaluate heterogeneity of treatment effect	2 weeks	Sub-group analyses for age, sex, race, stroke severity (NIHSS), stroke etiology (TOAST criteria), cortical vs. sub-cortical strokes, pre-morbid disability (pre-morbid mRS)

Trial Locations

Locations (1)

Touro Infirmary New Orleans; 🇺🇸 New Orleans, Louisiana, United States