Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics

Research output: Contribution to journalJournal articleResearchpeer-review

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Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics. / Piil, Jacob Feder; Kingma, Boris; Morris, Nathan Bradley; Christiansen, Lasse; Ioannou, Leonidas G; Flouris, Andreas D; Nybo, Lars.

In: Temperature, Vol. 8, No. 3, 2021, p. 262-283.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Piil, JF, Kingma, B, Morris, NB, Christiansen, L, Ioannou, LG, Flouris, AD & Nybo, L 2021, 'Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics', Temperature, vol. 8, no. 3, pp. 262-283. https://doi.org/10.1080/23328940.2021.1957367

APA

Piil, J. F., Kingma, B., Morris, N. B., Christiansen, L., Ioannou, L. G., Flouris, A. D., & Nybo, L. (2021). Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics. Temperature, 8(3), 262-283. https://doi.org/10.1080/23328940.2021.1957367

Vancouver

Piil JF, Kingma B, Morris NB, Christiansen L, Ioannou LG, Flouris AD et al. Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics. Temperature. 2021;8(3):262-283. https://doi.org/10.1080/23328940.2021.1957367

Author

Piil, Jacob Feder ; Kingma, Boris ; Morris, Nathan Bradley ; Christiansen, Lasse ; Ioannou, Leonidas G ; Flouris, Andreas D ; Nybo, Lars. / Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics. In: Temperature. 2021 ; Vol. 8, No. 3. pp. 262-283.

Bibtex

@article{25fa344696ae451baf10c1386ca5074a,
title = "Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics",
abstract = "Heat strain impairs performance across a broad spectrum of sport disciplines. The impeding effects of hyperthermia and dehydration are often ascribed to compromised cardiovascular and muscular functioning, but expert performance also depends on appropriately tuned sensory, motor and cognitive processes. Considering that hyperthermia has implications for central nervous system (CNS) function and fatigue, it is highly relevant to analyze how heat stress forecasted for the upcoming Olympics may influence athletes. This paper proposes and demonstrates the use of a framework combining expected weather conditions with a heat strain and motor-cognitive model to analyze the impact of heat and associated factors on discipline- and scenario-specific performances during the Tokyo 2021 games. We pinpoint that hyperthermia-induced central fatigue may affect prolonged performances and analyze how hyperthermia may impair complex motor-cognitive performance, especially when accompanied by either moderate dehydration or exposure to severe solar radiation. Interestingly, several short explosive performances may benefit from faster cross-bridge contraction velocities at higher muscle temperatures in sport disciplines with little or no negative heat-effect on CNS fatigue or motor-cognitive performance. In the analyses of scenarios and Olympic sport disciplines, we consider thermal impacts on {"}motor-cognitive factors{"} such as decision-making, maximal and fine motor-activation as well as the influence on central fatigue and pacing. From this platform, we also provide perspectives on how athletes and coaches can identify risks for their event and potentially mitigate negative motor-cognitive effects for and optimize performance in the environmental settings projected.",
keywords = "Faculty of Science, Heat stress, Motor-cognitive performance, Fatigue, International competition",
author = "Piil, {Jacob Feder} and Boris Kingma and Morris, {Nathan Bradley} and Lasse Christiansen and Ioannou, {Leonidas G} and Flouris, {Andreas D} and Lars Nybo",
note = "{\textcopyright} 2021 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.",
year = "2021",
doi = "10.1080/23328940.2021.1957367",
language = "English",
volume = "8",
pages = "262--283",
journal = "Temperature",
issn = "2332-8940",
publisher = "Taylor & Francis",
number = "3",

}

RIS

TY - JOUR

T1 - Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics

AU - Piil, Jacob Feder

AU - Kingma, Boris

AU - Morris, Nathan Bradley

AU - Christiansen, Lasse

AU - Ioannou, Leonidas G

AU - Flouris, Andreas D

AU - Nybo, Lars

N1 - © 2021 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

PY - 2021

Y1 - 2021

N2 - Heat strain impairs performance across a broad spectrum of sport disciplines. The impeding effects of hyperthermia and dehydration are often ascribed to compromised cardiovascular and muscular functioning, but expert performance also depends on appropriately tuned sensory, motor and cognitive processes. Considering that hyperthermia has implications for central nervous system (CNS) function and fatigue, it is highly relevant to analyze how heat stress forecasted for the upcoming Olympics may influence athletes. This paper proposes and demonstrates the use of a framework combining expected weather conditions with a heat strain and motor-cognitive model to analyze the impact of heat and associated factors on discipline- and scenario-specific performances during the Tokyo 2021 games. We pinpoint that hyperthermia-induced central fatigue may affect prolonged performances and analyze how hyperthermia may impair complex motor-cognitive performance, especially when accompanied by either moderate dehydration or exposure to severe solar radiation. Interestingly, several short explosive performances may benefit from faster cross-bridge contraction velocities at higher muscle temperatures in sport disciplines with little or no negative heat-effect on CNS fatigue or motor-cognitive performance. In the analyses of scenarios and Olympic sport disciplines, we consider thermal impacts on "motor-cognitive factors" such as decision-making, maximal and fine motor-activation as well as the influence on central fatigue and pacing. From this platform, we also provide perspectives on how athletes and coaches can identify risks for their event and potentially mitigate negative motor-cognitive effects for and optimize performance in the environmental settings projected.

AB - Heat strain impairs performance across a broad spectrum of sport disciplines. The impeding effects of hyperthermia and dehydration are often ascribed to compromised cardiovascular and muscular functioning, but expert performance also depends on appropriately tuned sensory, motor and cognitive processes. Considering that hyperthermia has implications for central nervous system (CNS) function and fatigue, it is highly relevant to analyze how heat stress forecasted for the upcoming Olympics may influence athletes. This paper proposes and demonstrates the use of a framework combining expected weather conditions with a heat strain and motor-cognitive model to analyze the impact of heat and associated factors on discipline- and scenario-specific performances during the Tokyo 2021 games. We pinpoint that hyperthermia-induced central fatigue may affect prolonged performances and analyze how hyperthermia may impair complex motor-cognitive performance, especially when accompanied by either moderate dehydration or exposure to severe solar radiation. Interestingly, several short explosive performances may benefit from faster cross-bridge contraction velocities at higher muscle temperatures in sport disciplines with little or no negative heat-effect on CNS fatigue or motor-cognitive performance. In the analyses of scenarios and Olympic sport disciplines, we consider thermal impacts on "motor-cognitive factors" such as decision-making, maximal and fine motor-activation as well as the influence on central fatigue and pacing. From this platform, we also provide perspectives on how athletes and coaches can identify risks for their event and potentially mitigate negative motor-cognitive effects for and optimize performance in the environmental settings projected.

KW - Faculty of Science

KW - Heat stress

KW - Motor-cognitive performance

KW - Fatigue

KW - International competition

U2 - 10.1080/23328940.2021.1957367

DO - 10.1080/23328940.2021.1957367

M3 - Journal article

C2 - 34485620

VL - 8

SP - 262

EP - 283

JO - Temperature

JF - Temperature

SN - 2332-8940

IS - 3

ER -

ID: 279199490