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Routine Covered Conditions
Internationally Treated Conditions
Neurological
HBOT research outcomes are very promising for various conditions such as Autism, Cerebral Palsy, Stroke, Multiple Sclerosis...
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Stem Cell Production
Stem cells have the remarkable potential to develop into numerous different cell types and serve as the body’s primary internal repair system. The innate ability of stem cells to differentiate into other types of cells with specialized functions (blood, brain or tissue/cells) replenishes and regenerates the body from the effects of aging and disease. Hyperbaric Oxygen Therapy (HBOT) has been shown to significantly increase the concentration of circulating stem/progenitor cells within the peripheral circulation system. By increasing blood plasma oxygen levels, bone marrow derived stem cells were shown to significantly proliferate and mobilize. The proposed mechanism of action was through nitric oxide dependent mechanism. This evidence plays a key role in regenerative medicine as the increased number of stem cells in the body have the ability to provide enhanced and accelerated physiological repair.
Studies and reviews:
- Vasculogenic stem cell mobilization and wound recruitment in….
- Stem Cell mobilization by hyperbaric oxygen therapy
- Oxygen, a key factor regulating cell behavior during neurogenesis & cerebral diseases
- Oxygen cycling in conjunction with stem cell transplantation_cardiac function
- Oxygen & oxygenation in stem cell therapy for myocardial infarction
- Hyperoxia, Endothelial progenitor cell mobilization & diabetic wound healing
Autism
Autism spectrum disorders (ASD) are diagnosed today more than ever before: Autism currently affects 1 in 68 children and 1 in 42 boys...
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Sports Injuries
Concussions
Hyperbaric oxygen therapy helps athletes at all skill
levels heal quickly and
get back to their favorite pursuit...
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Military
TBI/PTSD
Our U. S. Military Volunteers who are injured on the battlefield in the line of duty deserve the best treatment our nation can offer...
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wound care
Non-healing wounds are often associated with inadequate circulation, poorly functioning veins, reaction to radiation therapy, traumatic injury...
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Routine Covered Conditions
Diabetic wounds of the lower extremities
Compromised skin grafts and flaps
Chronic refractory osteomyelitis
Acute peripheral arterial insufficiency
Acute traumatic peripheral ischemia
Crush injuries/Compartment syndrome injuries
Internationally Treated Conditions
Routine Covered Conditions
Diabetic wounds of the lower extremities
Internationally Treated Conditions
Diabetic wounds of the lower extremities
Neurological
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Autism
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Sports Injuries
Concussions
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Military
TBI/PTSD
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wound care
Learn More
Stem Cell Production
Stem cells have the remarkable potential to develop into numerous different cell types and serve as the body’s primary internal repair system. The innate ability of stem cells to differentiate into other types of cells with specialized functions (blood, brain or tissue/cells) replenishes and regenerates the body from the effects of aging and disease. Hyperbaric Oxygen Therapy (HBOT) has been shown to significantly increase the concentration of circulating stem/progenitor cells within the peripheral circulation system. By increasing blood plasma oxygen levels, bone marrow derived stem cells were shown to significantly proliferate and mobilize. The proposed mechanism of action was through nitric oxide dependent mechanism. This evidence plays a key role in regenerative medicine as the increased number of stem cells in the body have the ability to provide enhanced and accelerated physiological repair.
Studies and reviews:
- Vasculogenic stem cell mobilization and wound recruitment in….
- Stem Cell mobilization by hyperbaric oxygen therapy
- Oxygen, a key factor regulating cell behavior during neurogenesis & cerebral diseases
- Oxygen cycling in conjunction with stem cell transplantation_cardiac function
- Oxygen & oxygenation in stem cell therapy for myocardial infarction
- Hyperoxia, Endothelial progenitor cell mobilization & diabetic wound healing
Routine Covered Conditions
Diabetic wounds of the lower extremities
Internationally Treated Conditions
Diabetic wounds of the lower extremities
Neurological
Learn More
Autism
Learn More
Sports Injuries
Learn More
Military
Learn More
Wound Care
Learn More
Autism
Learn More
Sports Injuries
Concussions
Learn More
Military
TBI/PTSD
Learn More
wound care
Learn More
Stem Cell Production
Stem cells have the remarkable potential to develop into numerous different cell types and serve as the body’s primary internal repair system. The innate ability of stem cells to differentiate into other types of cells with specialized functions (blood, brain or tissue/cells) replenishes and regenerates the body from the effects of aging and disease. Hyperbaric Oxygen Therapy (HBOT) has been shown to significantly increase the concentration of circulating stem/progenitor cells within the peripheral circulation system. By increasing blood plasma oxygen levels, bone marrow derived stem cells were shown to significantly proliferate and mobilize. The proposed mechanism of action was through nitric oxide dependent mechanism. This evidence plays a key role in regenerative medicine as the increased number of stem cells in the body have the ability to provide enhanced and accelerated physiological repair.
Studies and reviews:
- Vasculogenic stem cell mobilization and wound recruitment in….
- Stem Cell mobilization by hyperbaric oxygen therapy
- Oxygen, a key factor regulating cell behavior during neurogenesis & cerebral diseases
- Oxygen cycling in conjunction with stem cell transplantation_cardiac function
- Oxygen & oxygenation in stem cell therapy for myocardial infarction
- Hyperoxia, Endothelial progenitor cell mobilization & diabetic wound healing