Brain Damage
Brain damage is an injury that causes the deterioration or destruction of brain cells. Brain damage includes both Traumatic Brain Injury (TBI), caused by an external force, and Acquired Brain Injury (ABI), occurring at the cellular level. The severity of damage can vary based on they type of injury, but can range from headaches, confusion, and memory problems, to more severe cognitive, behavioral, and physical disabilities.
Benefits of Hyperbaric Oxygen Therapy for Brain Damage:

Increases Amount of Oxygen in the Blood
Stimulates development of new blood vessels from pre-existing vessels as well as the natural development of new blood vessels.

Reduces Inflammation & Swelling
Suppresses the cellular activity of the immune system which triggers swelling when an injury or damage to the body occurs. While this reaction is meant to start healing and protect from injury it can result in secondary injury, pain, and prolonged recovery time.

Preserves, Repairs, & Enhances Cellular Functions
Boosts cellular metabolism, promotes rapid cell reproduction, and enhances collagen synthesis. Collagen is a protein in connective tissues like skin.
Key Research on Hyperbaric Oxygen Therapy for Brain Damage
Recent News on Hyperbaric Oxygen Therapy for Brain Damage
Local doctor continues to push VA to approve Hyperbaric Oxygen Therapy for veterans
The AC133 antigen is a novel antigen selectively expressed on a subset of CD34+ cells in human fetal liver, bone marrow, and blood as demonstrated by flow cytometric analyses. In this study, we have further assessed the expression of AC133 on CD34+ cells in hemopoietic samples and found that there was a highly significant difference between normal bone marrow and cord blood versus aphereses (p <0.0001) but not between bone marrow and cord blood. Most of the clonogenic cells (67%) were contained in the CD34+AC133+ fraction. Compared with cultures of the CD34+AC133- cells, generation of progenitor cells in long-term culture on bone marrow stroma was consistently 10- to 100-fold higher in cultures initiated with CD34+AC133+ cells and was maintained for the 8-10 weeks of culture.
Study Reveals Oxygen-Rich Air Can Reverse Severe Brain Damage
The AC133 antigen is a novel antigen selectively expressed on a subset of CD34+ cells in human fetal liver, bone marrow, and blood as demonstrated by flow cytometric analyses. In this study, we have further assessed the expression of AC133 on CD34+ cells in hemopoietic samples and found that there was a highly significant difference between normal bone marrow and cord blood versus aphereses (p <0.0001) but not between bone marrow and cord blood. Most of the clonogenic cells (67%) were contained in the CD34+AC133+ fraction. Compared with cultures of the CD34+AC133- cells, generation of progenitor cells in long-term culture on bone marrow stroma was consistently 10- to 100-fold higher in cultures initiated with CD34+AC133+ cells and was maintained for the 8-10 weeks of culture.
Dying for a cure
CINCINNATI (WKRC) - Suicide among our members of the military and our veterans is now at its highest level ever, reaching an average of 24 deaths a day. Several scientific and medical studies link many of these suicides to physical brain damage suffered by combat...
Related Indications
Schedule a Consultation
Additional Research
Clinical results in brain injury trials using HBO2 therapy: Another perspective.
The current debate surrounding the use of hyperbaric oxygen (HBO2) for neurological indications, specifically mild to moderate chronic traumatic brain injury (mTBI) and post-concussion syndrome (PCS), is mired in confusion due to the use of non-validated controls and an unfamiliarity by many practitioners of HBO2 therapy with the experimental literature. In the past 40 years, the use of an air sham (21% oxygen, 1.14-1.5 atmospheres absolute/atm abs) in clinical and animal studies, instead of observational or crossover controls, has led to false acceptance of the null hypothesis (declaring no effect when one is present), due to the biological activity of these “sham” controls. The recent Department of Defense/Veterans Administration (DoD/VA) sponsored trials, previous published reports on the use of HBO2 therapy on stroke and mTBI and preliminary reports from the HOPPS Army trial, have helped to highlight the biological activity of pressurized air, validate the development of a convincing control for future studies and demonstrate the effectiveness of a hyperbaric intervention for mTBI/ PCS. Approval of HBO2 for neurological indications, especially for mTBI/PCS, should be granted at the federal, state and certifying body levels as a safe and viable treatment for recovery in the post-acute phase.
Treatments for traumatic brain injury with emphasis on transcranial near-infrared laser phototherapy.
Abstract: Traumatic brain injury (TBI) is a growing health concern affecting civilians and military personnel. In this review, treatments for the chronic TBI patient are discussed, including pharmaceuticals, nutraceuticals, cognitive therapy, and hyperbaric oxygen...
Oxidative Stress, Brain Edema, Blood–Brain Barrier Permeability, and Autonomic Dysfunction from Traumatic Brain Injury
Excerpt Traumatic brain injury (TBI) contributes to a substantial number of deaths and cases of permanent disability annually. An immune response to head injury gives a timeline to the pathological cascades with multiple cellular, metabolic and immune pathways...