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Hyperoxia: Effective Mechanism of Hyperbaric Treatment at Mild-Pressure

Mariana Cannellotto, Ali Yasells García, María S. Landa

2024International Journal of Molecular Sciences23 citationsDOIOpen Access PDF

Abstract

HBOT increases the proportion of dissolved oxygen in the blood, generating hyperoxia. This increased oxygen diffuses into the mitochondria, which consume the majority of inhaled oxygen and constitute the epicenter of HBOT effects. In this way, the oxygen entering the mitochondria can reverse tissue hypoxia, activating the electron transport chain to generate energy. Furthermore, intermittent HBOT is sensed by the cell as relative hypoxia, inducing cellular responses such as the activation of the HIF-1α pathway, which in turn, activates numerous cellular processes, including angiogenesis and inflammation, among others. These effects are harnessed for the treatment of various pathologies. This review summarizes the evidence indicating that the use of medium-pressure HBOT generates hyperoxia and activates cellular pathways capable of producing the mentioned effects. The possibility of using medium-pressure HBOT as a direct or adjunctive treatment in different pathologies may yield benefits, potentially leading to transformative therapeutic advancements in the future.

Topics & Concepts

HyperoxiaHypoxia (environmental)MitochondrionOxygenInflammationReactive oxygen speciesAngiogenesisChemistryCell biologyPharmacologyBiologyMedicineCancer researchImmunologyOrganic chemistryCancer, Hypoxia, and MetabolismCardiovascular and Diving-Related ComplicationsAutophagy in Disease and Therapy
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