CNS fatigue provoked by prolonged exercise in the heat

Lars Nybo

CNS fatigue provoked by prolonged exercise in the heat

28 Citations (Scopus)

Abstract

Exercise-induced hyperthermia is associated with central fatigue as indicated by an impaired ability to sustain maximal motor activation during prolonged voluntary efforts. Therefore, exercise in hot environments challenges not only to the cardiorespiratory and locomotive systems but also to the brain. However, exercise with superimposed hyperthermia is not only a challenge to the brain it also provides an excellent model for studying factors of importance for central fatigue. Excessive heat storage within the brain appears to be the primary cause for the central fatigue during exercise in the heat, but pharmacological manipulations provide evidence for involvement of the dopaminergic system and other monoamines. Thus, enhanced dopaminergic activity may counteract hyperthermia mediated central fatigue and improve performance in the heat, while noradrenaline re-uptake inhibition appears to aggravate central fatigue and degrade exercise performance. Hyperthermia mediated central fatigue may include other cerebral perturbations such as reduced perfusion of the brain, accumulation of ammonia or depletion of neuronal energy stores, but further research is needed to elucidate their possible contributions.

Original language	English
Journal	Frontiers in Bioscience
Volume	E2
Issue number	2
Pages (from-to)	779-792
Number of pages	14
ISSN	1093-9946
Publication status	Published - 1 Jan 2010

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abstract = "Exercise-induced hyperthermia is associated with central fatigue as indicated by an impaired ability to sustain maximal motor activation during prolonged voluntary efforts. Therefore, exercise in hot environments challenges not only to the cardiorespiratory and locomotive systems but also to the brain. However, exercise with superimposed hyperthermia is not only a challenge to the brain it also provides an excellent model for studying factors of importance for central fatigue. Excessive heat storage within the brain appears to be the primary cause for the central fatigue during exercise in the heat, but pharmacological manipulations provide evidence for involvement of the dopaminergic system and other monoamines. Thus, enhanced dopaminergic activity may counteract hyperthermia mediated central fatigue and improve performance in the heat, while noradrenaline re-uptake inhibition appears to aggravate central fatigue and degrade exercise performance. Hyperthermia mediated central fatigue may include other cerebral perturbations such as reduced perfusion of the brain, accumulation of ammonia or depletion of neuronal energy stores, but further research is needed to elucidate their possible contributions.",

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AB - Exercise-induced hyperthermia is associated with central fatigue as indicated by an impaired ability to sustain maximal motor activation during prolonged voluntary efforts. Therefore, exercise in hot environments challenges not only to the cardiorespiratory and locomotive systems but also to the brain. However, exercise with superimposed hyperthermia is not only a challenge to the brain it also provides an excellent model for studying factors of importance for central fatigue. Excessive heat storage within the brain appears to be the primary cause for the central fatigue during exercise in the heat, but pharmacological manipulations provide evidence for involvement of the dopaminergic system and other monoamines. Thus, enhanced dopaminergic activity may counteract hyperthermia mediated central fatigue and improve performance in the heat, while noradrenaline re-uptake inhibition appears to aggravate central fatigue and degrade exercise performance. Hyperthermia mediated central fatigue may include other cerebral perturbations such as reduced perfusion of the brain, accumulation of ammonia or depletion of neuronal energy stores, but further research is needed to elucidate their possible contributions.

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CNS fatigue provoked by prolonged exercise in the heat

Abstract

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