(800) 973-3009 / (781) 961-7887 info@hyperbaricoxygenchamber.com

Traumatic Brain Injury/Post-concussion syndrome


Why HBOT for brain injuries? Why NOT HBOT for brain injuries? HBOT has been used for nearly 50 years for new and old wounds in the body regardless of the location in the body. New wounds such as “flesh eating bacteria” infections or wounds whether they are on the torso, leg, groin, or neck, gas gangrene from war wounds in the same locations, crush injuries and blast injuries from explosions regardless of location, and burns to any part of the body are all treated with HBOT. Similarly, old wounds caused by infection to any of the bones in the body, diabetic foot wounds and other long-term ulcers of the feet, and old radiation wounds in the jaw, neck, chest, abdomen, or anywhere else in the body are responsive to HBOT.

What is Hyperbaric Oxygen and Why Does it Help Brain Disorders?
Room air is 21% oxygen at a pressure of 1 atmosphere. Prior studies on autism had children inhaling up to 100% oxygen at pressures up to 2.0 atmospheres. It may also aid autism by helping the immune system work well.

In addition, “the bends” of the brain, abscesses in the brain, air that gets in blood vessels and travels to the brain (air embolism), and carbon monoxide poisoning of the brain are HBOT-treatable diagnoses. Interestingly, almost all of these are paid for by insurance, Medicare, and Medicaid. Once there is the realization that all cells in the body are similar, respond similarly to injury, and similarly to HBOT it is very easy to see how brain injuries respond to HBOT.

HBOT for Traumatic Brain Injury (TBI)

The brain is similar to a large spear of broccoli. The broccoli fronds are like the outer part of the brain, the cortex or grey matter, where the brain cells exist and the spear or stalk is like the connecting tracts in the center of the brain. These tracts are also known as the white matter. Trauma causes an injury to the brain that is mechanistically identical to shaking the broccoli by its stalk. The shaking causes a mechanical disruption of the connecting tracts between brain cells. These tracts are similar to the cable that carries our cable television and broadband. Once disrupted cells can’t communicate between themselves and some of the cables die back to the cells which then die. Each cable that is lost causes a loss of neurological function and thinking. In addition, each little site of disruption of cable or blood vessels is a wound in the brain that starts the inflammatory reaction. It is also associated with swelling, just like a swollen ankle or a bruise on the arm. As swelling occurs the swelling fluid compresses the small blood vessels in the area leading to low blood flow and low oxygen. Nearby cells then are further injured and live in a dormant state, or die. This is known as the “vicious cycle” of traumatic brain injury. The net result is loss of neurological function and symptoms such as headache, confusion, problems with memory, attention, concentration, sleep disturbance, irritability, etc.

How HBOT Works For Traumatic Brain Injury?

HBOT has been shown to decrease swelling, repair the metabolic injury to the cell and cable, and stop the inflammation in acute brain injuries with just a few treatments in the first 72 hours after injury. It is the only drug known to break the vicious cycle. Once the vicious cycle is broken neurological function is restored and patients survive. This is what has been shown in multiple scientific studies beginning in the 1970s in Germany. If HBOT is not used early on in traumatic injury the injury “matures” as inflammation runs its course. Since inflammation is “stereotypic” or identical regardless of where in the body it occurs the inflammatory reaction is like playing a videotape or DVD. It is the same process, the same story every time, everywhere. The net result is nearly identical chronic wounds by the time the wound is 6 months to 1 year old. At this point, the wound resembles any other wound in the body that HBOT has been shown to treat. It’s just that it is in the brain.