Effects of hypothermia, hypoxia, and hypercapnia on brain oxygenation and hemodynamic parameters during simulated avalanche burial: a porcine study | Zendy

Giacomo Strapazzon | Zendy; Gabriel Putzer | Zendy; Tomas Dal Cappello | Zendy; Marika Falla | Zendy; Patrick Braun | Zendy; Markus Falk | Zendy; Bernhard Glodny | Zendy; Daniel Pinggera | Zendy; Raimund Helbok | Zendy; Hermann Brugger | Zendy

Open Access

Effects of hypothermia, hypoxia, and hypercapnia on brain oxygenation and hemodynamic parameters during simulated avalanche burial: a porcine study

Author(s) -

Giacomo Strapazzon,

Gabriel Putzer,

Tomas Dal Cappello,

Marika Falla,

Patrick Braun,

Markus Falk,

Bernhard Glodny,

Daniel Pinggera,

Raimund Helbok,

Hermann Brugger

Publication year - 2020

Publication title -

journal of applied physiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.253

H-Index - 229

eISSN - 8750-7587

pISSN - 1522-1601

DOI - 10.1152/japplphysiol.00498.2020

Subject(s) - hypercapnia , hypothermia , hypoxia (environmental) , anesthesia , oxygenation , medicine , hemodynamics , cerebral blood flow , cardiology , oxygen , chemistry , acidosis , organic chemistry

Avalanche patients who are completely buried but still able to breathe are exposed to hypothermia, hypoxia, and hypercapnia (triple H syndrome). In a porcine model, there was no clinically relevant reduction in cerebral oxygenation during hypothermia and initial reduction of fraction of inspiratory oxygen ([Formula: see text]), as observed during hypercapnia. Hypercapnia may be the main cause of cardiovascular instability, which seems to be the major trigger for a decrease in cerebral oxygenation in triple H syndrome despite severe hypothermia.

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