Mechanisms of orthostatic intolerance during heat stress

Mechanisms of orthostatic intolerance during heat stress

Abstract Heat stress profoundly and unanimously reduces orthostatic tolerance. This review aims to provide an overview of the numerous and multifactorial mechanisms by which this occurs in humans. Potential causal factors include changes in arterial and venous vascular resistance and blood distribut...

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Bibliographic Details
Published in:Autonomic neuroscience 2016-04, Vol.196, p.37-46
Main Authors: Schlader, Zachary J, Wilson, Thad E, Crandall, Craig G
Format: Article
Language:eng
Subjects:
Advanced Basic Science
Animals
Body Temperature - physiology
Cardiovascular control
Cutaneous blood flow
Heat Stress Disorders - physiopathology
Hot Temperature
Humans
Hyperthermia
Hypovolemia - physiopathology
Medical Education
Orthostasis
Orthostatic Intolerance - physiopathology
Sympathetic nerve activity
Vascular Resistance - physiology
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Summary:Abstract Heat stress profoundly and unanimously reduces orthostatic tolerance. This review aims to provide an overview of the numerous and multifactorial mechanisms by which this occurs in humans. Potential causal factors include changes in arterial and venous vascular resistance and blood distribution, and the modulation of cardiac output, all of which contribute to the inability to maintain cerebral perfusion during heat and orthostatic stress. A number of countermeasures have been established to improve orthostatic tolerance during heat stress, which alleviate heat stress induced central hypovolemia (e.g., volume expansion) and/or increase peripheral vascular resistance (e.g., skin cooling). Unfortunately, these countermeasures can often be cumbersome to use with populations prone to syncopal episodes. Identifying the mechanisms of inter-individual differences in orthostatic intolerance during heat stress has proven elusive, but could provide greater insights into the development of novel and personalized countermeasures for maintaining or improving orthostatic tolerance during heat stress. This development will be especially impactful in occuational settings and clinical situations that present with orthostatic intolerance and/or central hypovolemia. Such investigations should be considered of vital importance given the impending increased incidence of heat events, and associated cardiovascular challenges that are predicted to occur with the ensuing changes in climate.
ISSN:1566-0702
1872-7484