Brain and Cardiorespiratory Responses to Exercise in Hot and Thermoneutral Conditions.
| Autor: | Edwards AM; Sport & Health Sciences, University of St Mark & St John, Plymouth, United Kingdom of Great Britain and Northern Ireland., Deakin GB; Sport & Exercise Science, James Cook University Division of Tropical Health and Medicine, Townsville, Australia., Guy JH; Sport & Health Sciences, University of St Mark & St John, Plymouth, United Kingdom of Great Britain and Northern Ireland. |
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| Jazyk: | angličtina |
| Zdroj: | International journal of sports medicine [Int J Sports Med] 2016 Sep; Vol. 37 (10), pp. 779-84. Date of Electronic Publication: 2016 Jun 10. |
| DOI: | 10.1055/s-0042-106296 |
| Abstrakt: | The aim of this study was to test whether or not concurrent evaluations of brain (electroencephalography [EEG]) and cardiorespiratory responses to exercise are influenced by environmental conditions. 10 adult male participants performed a standardized incremental exercise test to exhaustion on a cycle ergometer in an environment controlled laboratory on 2 separate occasions, in a randomized order; one in a hot condition (34.5°C) and one in a thermoneutral condition (20°C). EEG, heart rate and expired air were collected throughout. EEG data were decontaminated for artefacts, log-transformed and expressed as aggregated alpha and beta power responses across electrodes reflecting the frontal cortex of the brain. Performance outcomes showed there was no difference in V˙O2 peak across hot (42.5 ml/kg/min) and neutral (42.8 ml/kg/min) conditions, although ventilatory threshold (VT) occurred at a lower threshold (68%) in hot compared to neutral condition (74%) (p<0.05). EEG alpha and beta wave responses both demonstrated significant increases from baseline to VT (p<0.01). EEG beta-band activity was significantly elevated in the heat compared to the neutral condition. In conclusion, elevated EEG beta-band activity in response to incremental exercise in the heat suggests that beta-band activation and cortical awareness increases as exercise becomes increasingly intense. (© Georg Thieme Verlag KG Stuttgart · New York.) |
| Databáze: | MEDLINE |
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