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Hyperoxia: Effective Mechanism of Hyperbaric Treatment at Mild-Pressure

Cannellotto M, Yasells García A, Landa MS. Hyperoxia: Effective Mechanism of Hyperbaric Treatment at Mild-Pressure. Int J Mol Sci. 2024 Jan 8;25(2):777. 

 

Hyperoxia, the condition of having an excess of oxygen in the tissues, is a key mechanism in hyperbaric oxygen therapy (HBOT), even at mild pressures.

Mechanisms of Action

  • Increased Oxygen Delivery:
    • Under hyperbaric conditions, the solubility of oxygen in plasma increases significantly. This allows for greater oxygen transport to tissues, even those with compromised blood flow.
  • Enhanced Wound Healing:
    • Oxygen is essential for collagen synthesis and cellular metabolism, both crucial for wound healing. The elevated oxygen levels facilitate these processes, promoting faster recovery.
  • Reduction of Inflammation:
    • Hyperoxia can modulate inflammatory responses. Elevated oxygen levels help reduce edema and inflammation by promoting vasoconstriction and decreasing the release of pro-inflammatory cytokines.
  • Angiogenesis:
    • The therapy stimulates the formation of new blood vessels, improving oxygen delivery to ischemic tissues. This angiogenic effect is particularly beneficial in chronic wounds and tissue repair.
  • Neuroprotective Effects:
    • In neurological applications, hyperoxia may enhance neuronal recovery and protect against oxidative stress, aiding recovery in conditions like traumatic brain injury and stroke.
  • Antimicrobial Effects:
    • Hyperbaric environments can inhibit the growth of certain anaerobic bacteria and enhance the efficacy of antibiotics, making HBOT valuable for treating infections, especially in diabetic ulcers.

Mild-Pressure Considerations

  • Accessibility: Mild-pressure HBOT is often more accessible and less resource-intensive than high-pressure therapy, making it a practical option for outpatient settings.
  • Patient Tolerance: Patients typically tolerate mild-pressure treatments better, experiencing fewer side effects while still benefiting from hyperoxic conditions.

 

Conclusion

Mild-pressure HBOT harnesses the principles of hyperoxia to facilitate healing, reduce inflammation, and improve overall tissue recovery. Its mechanisms of action make it a valuable therapeutic approach for various conditions, particularly in enhancing recovery from injuries and chronic wounds. Further research will continue to clarify its optimal applications and long-term benefits.