Treatment of Traumatic Brain Injury With Hyperbaric Oxygen Therapy

The Agency for Healthcare Research and Quality (AHRQ) did a comprehensive review of the literature focusing on TBI, stroke and cerebral palsy in Sep 2003. The study design and goals were based on the AHRQ recommendations for future hyperbaric oxygen for TBI research. This report stated, "The most important gap in the evidence is a lack of a good quality time-series study or controlled trial of the effects of HBOT on cognition, memory, and functional status in patients with deficits due to mild and moderate chronic TBI." The AHRQ Evidence Report further stated, "Lack of agreement on the dosage of HBOT and the duration of treatment is an important barrier to conducting good-quality clinical studies...Good-quality dose-ranging studies of HBOT for brain injury can be done, based on the model used by pharmaceutical manufacturers and the FDA. It is likely that the dosage of HBOT needs to be individualized based on the patient's age, clinical condition, and other factors". Although there are many anecdotal cases of TBI improvement with HBO, this case is backed with non-subjective data. The biological basis for why breathing 100% oxygen under pressurized conditions improves chronic neurological trauma remains unclear. There is some evidence that chronic TBI effects are related to the demyelization effect linked to the expression of a specific protease, calpain. This protease is also seen in demyelination delayed effects of carbon monoxide poisoning which is slowed by treatment with HBO. The "idling neuron" theory advocated in neurological studies suggest that HBO may increase metabolic performance of chronically impaired neurons that were marginally capable, enabling restoration of full function leading in turn to increased integrative plasticity. HBO has been shown to increase recruitment of stem cells from the bone marrow, suggesting that HBO may increase the rate at which damaged neuronal tissue can be reconstituted de novo. The proposed research will treat 25 subjects using HBO (2.4 ATA breathing 100% oxygen) and 25 subjects in a sham HBO treatment (1.3 ATA breathing air). Computer-based cognitive testing and the Post-traumatic Stress Disorder Checklist for Military (PCL-M) will be administered pre- and post-HBOT as well as at intervals throughout the treatment. The cognitive test results and stem cell results will be analyzed within each subject at the various treatment points as well as cohort groups between each treatment leg. Cognitive test scores will also be compared to cognitive test population reference bases matched for gender and age. The Agency for Healthcare Research and Quality 2003 report also stated, "If there is a 1 percent chance that the treatment works, a rational decision maker would try it-there is a potential gain and no potential loss. On the other hand, if there are proven harms, and their severity and frequency are well described, the probability that the treatment works would have to be higher before most people would try it"