Pregled bibliografske jedinice broj: 956017
Hyperbaric Oxygen Treatment in Research and Clinical Practice- Mechanisms of Action in Focus
Hyperbaric Oxygen Treatment in Research and Clinical Practice- Mechanisms of Action in Focus / Drenjančević, Ines (ur.). online: IntechOpen, 2018 (monografija) doi:10.5772/intechopen.70322
CROSBI ID: 956017 Za ispravke kontaktirajte CROSBI podršku putem web obrasca
Naslov
Hyperbaric Oxygen Treatment in Research and Clinical Practice- Mechanisms of Action in Focus
(Hyperbaric Oxygen Treatment in Research and Clinical Practice-Mechanisms of Action in Focus)
Urednik/ci
Drenjančević, Ines
Vrsta, podvrsta i kategorija knjige
Uredničke knjige, monografija, znanstvena
Izdavač
IntechOpen
Grad
Online
Godina
2018
Stranica
120
ISBN
978-1-78923-599-9
Ključne riječi
hyperbaric oxygen treatment, acute HBO2, intermittent HBO2, indications, cellular and molecular mechanisms, oxygen sensor, arachidonic acid, NO, oxidative stress, diabetes mellitus, stroke, ischemia-reperfusion, blood vessels, microcirculation, respiratory system, neurotrauma, chronic wound, hypoxia, transcription factors, oxygen preconditioning, HBO2 and inflammation, cancer and HBO2, radiation injury,
Sažetak
Hyperbaric oxygen treatment (HBO2) is a widely accepted adjuvant therapy in various health conditions that exhibit impaired tissue blood flow. At high pressures, the delivery of the dissolved oxygen in plasma is enhanced, which contributes to better tissue oxygenation, cellular metabolism and ultimately, healing. However, this is not the only potential mechanism for improved outcome of many diseases treated with HBO2, since oxygen is highly reactive molecule and can induce upregulation of many various enzymatic systems in the cell, at cellular, genetic and molecular level. Particularly, vascular/endothelial function is affected by the HBO2. Our understanding of these mechanisms of the HBO2 effects is still emerging. There have been many controversies related to the HBO2 protocols and indications. It is known that, as well as HBO2 exhibit beneficiary effects on the tissue perfusion, it demonstrates high toxicity at higher pressures, due to increased oxidative stress and barotrauma. On the other hand, there is still a lack of the translation of the knowledge on the mechanisms of action of HBO2 obtained from the experimental research to the clinical practice. Thus, this book will present the reader with the overview of the current knowledge on the mechanisms of HBO2 effects in various experimental models and clinical treatment protocols, in attempt to provide better understanding how and when HBO2 should be used as effective therapy without unwanted side-effects.
Izvorni jezik
Engleski
Znanstvena područja
Temeljne medicinske znanosti, Kliničke medicinske znanosti
