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Current Neurovascular Research

Editor-in-Chief

ISSN (Print): 1567-2026
ISSN (Online): 1875-5739

Brain Hyperthermia During Physiological and Pathological Conditions: Causes, Mechanisms, and Functional Implications

Author(s): Eugene A. Kiyatkin

Volume 1, Issue 1, 2004

Page: [77 - 90] Pages: 14

DOI: 10.2174/1567202043480233

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Abstract

Although brain metabolism consumes high amounts of energy and is accompanied by intense heat production, brain temperature is usually considered a stable, tightly regulated homeostatic parameter. Current animal research, however, has shown that different forms of functional neural activation are accompanied by relatively large brain hyperthermia (2-3°C), which has an intra-brain origin; cerebral circulation plays a crucial role in dissipating this potentially dangerous metabolic heat from brain tissue. Brain hyperthermia, therefore, reflects enhanced brain metabolism and is a normal physiological phenomenon that can be enhanced by interaction with common elements of an organisms environment. There are, however, instances when brain hyperthermia becomes pathological. Both exposure to extreme environmental heat and intense physical activity in a hot, humid environment restrict heat dissipation from the brain and may push brain temperatures to the limits of physiological functions, resulting in acute life-threatening complications and destructive effects on neural cells and functions of the brain as a whole. Brain hyperthermia may also result from metabolic activation induced by various addictive drugs, such as heroin, cocaine, and meth-amphetamine (METH). In contrast to heroin and cocaine, whose stimulatory effects on brain metabolism invert with increases in dose, METH increases brain metabolism dosedependently and diminishes heat dissipation because of peripheral vasoconstriction. The thermogenic effects of this drug, moreover, are enhanced during physiological activation, resulting in pathological brain hyperthermia. Since brain hyperthermia exacerbates drug-induced toxicity and is destructive to neural cells, uncontrollable use of amphetamine-like drugs under conditions restricting heat dissipation from the brain may result both in acute lifethreatening complications and clinically latent but dangerous morphological and functional brain destruction.

Keywords: brain, metabolism, cerebral blood flow, hyperthermia, metabolic neural activation, addictive drugs, emotional and physical activation, neurotoxicity

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