Incorporate the Hyperbaric Treatment System

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HYPERBARIC CHAMBER 

 Revitalair® 430

Safe, efficient and easy to operate    Contact us for more information

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Physiological effects

Non-hypoxemic vasoconstriction

The increase of the oxygen available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation, as well as the redistribution of flow to hypoperfused areas.

Stimulation of axonal and peripheral regeneration

Oxygen is necessary for axonal elongation, as it favors the plasticity of the nervous system.

Angiogenesis

Oxygen is necessary for axonal elongation, as it favors the plasticity of the nervous system.

Stimulation of cellular immunity

Polymorphonuclear cells are a type of white blood cell that use free radicals as a bactericidal mechanism. This process is favored and stimulated with the presence of O2.

Stimulation of collagen synthesis

Hyperoxia induces the hydroxylation of proline and the proliferation of fibroblasts favoring the synthesis of collagen, essential for the process of wound healing and tissue repair.

Bactericidal activity

Hyperoxia generates reactive oxygen species that increase the activity of antibiotics and act against bacterial biofilm.

Regulation of oxidative stress and the inflammatory response

Hyperoxia acts on regulators and mediators of the inflammatory response and decreases oxidative stress, so it has anti-inflammatory effects and decreases cellular damage.

Stimulation of mother cells

Hyperoxia stimulates the differentiation and release of stem cells (Stem Cells), so it stimulates the process of tissue repair and the formation of new blood vessels.

Increase in brain blood flow and neuroprotection

Improves perfusion thanks to the formation of new vessels and cerebral oxygenation decreases edema and inflammation of the central nervous system.

Osteogenesis

Hyperoxia promotes the differentiation of bone-forming cells and promotes osteogenesis and bone repair.

Non-hypoxemic vasoconstriction

The increase of the oxygen available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation, as well as the redistribution of flow to hypoperfused areas.

Applications

Applications of hyperbaric oxygen treatment (HBOT):

PAIN

Frequent pathologies that cause pain:

  • Injuries

  • Fibromyalgia

  • Rheumatologic diseases

  • Acute and chronic wounds

  • Low back and joint pain

  • Migraines

  • Peripheral vascular disease

  • Pain related to inflammation

Applications

Applications of hyperbaric oxygen treatment (HBOT):

PAIN

Frequent pathologies that cause pain:

Frequent pathologies that cause pain:

  • Injuries

  • Fibromyalgia

  • Rheumatologic diseases

  • Acute and chronic wounds

  • Low back and joint pain

  • Migraines

  • Peripheral vascular disease

  • Pain related to inflammation

Worldwide
Distributtion

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