Physiological Effects

Hyperbaric Oxygen Therapy produces hyperoxia. This favors cellular metabolism and allows oxygen to reach the brain, cartilage, bones and affected tissues. Its main effects are:

Non-hypoxic vasoconstriction

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas

Non-hypoxic vasoconstriction

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas

Stimulation of axonal and peripheral regeneration

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas

Stimulation of axonal and peripheral regeneration

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas

Angiogenesis

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Angiogenesis

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Stimulation of cellular immunity

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Stimulation of cellular immunity

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Stimulation of collagen synthesis

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Stimulation of collagen synthesis

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Bactericidal activity

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Bactericidal activity

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Regulation of oxidative stress and the inflammatory response

he increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Regulation of oxidative stress and the inflammatory response

he increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Stimulation of stem cells

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Stimulation of stem cells

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Increases cerebral blood flow and neuroprotection

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Increases cerebral blood flow and neuroprotection

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Osteogenesis

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Osteogenesis

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Non-hypoxic vasoconstriction

The increase in O2 available in small arteries and capillaries favors vasoconstriction that occurs in healthy tissues and without deterioration of oxygenation. This promotes a redistribution of flow to hypoperfused areas.

Indications

The indications for Hyperbaric Oxygen Therapy are evolving with new evidence from scientific associations and Hyperbaric Medicine societies.

Currently, it is applied when there is hypoxia or lack of oxygen.

Typical Sessions

Contact

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*These statements have not been evaluated by the US Food and Drug Administration.