Core Body Temperature Speeds Up Temporal Processing and Choice Behavior Under Deadlines

Overview

Journal Sci Rep

Specialty Science

Date 2019 Jul 13

PMID 31296893

Citations 11

Authors

Leendert Van Maanen

Robbert van der Mijn

Maurice H P H Van Beurden

Linsey M M Roijendijk

Boris R M Kingma

Steven Miletic

Hedderik van Rijn

Affiliations

Soon will be listed here.

Abstract

Evidence suggests that human timing ability is compromised by heat. In particular, some studies suggest that increasing body temperature speeds up an internal clock, resulting in faster time perception. However, the consequences of this speed-up for other cognitive processes remain unknown. In the current study, we rigorously tested the speed-up hypothesis by inducing passive hyperthermia through immersion of participants in warm water. In addition, we tested how a change in time perception affects performance in decision making under deadline stress. We found that participants underestimate a prelearned temporal interval when body temperature increases, and that their performance in a two-alternative forced-choice task displays signatures of increased time pressure. These results show not only that timing plays an important role in decision-making, but also that this relationship is mediated by temperature. The consequences for decision-making in job environments that are demanding due to changes in body temperature may be considerable.

Citing Articles

The Effects of Physical and Mental Fatigue on Time Perception.

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Maximal and Submaximal Intensity Isometric Knee Extensions Induce an Underestimation of Time Estimates with Both Younger And Older Adults: A Randomized Crossover Trial.

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Temporal perception is distorted by submaximal and maximal isometric contractions of the knee extensors in young healthy males and females.

Gardner H, Konrad A, Alizadeh S, Graham A, Behm D Front Sports Act Living. 2023; 5:1185480.

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Frequency matters: how changes in hippocampal theta frequency can influence temporal coding, anxiety-reduction, and memory.

Hines M, Poulter S, Douchamps V, Pibiri F, McGregor A, Lever C Front Syst Neurosci. 2023; 16:998116.

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Interoceptive accuracy correlates with precision of time perception in the millisecond range.

Uraguchi M, Maulina V, Ohira H Front Neurosci. 2022; 16:993491.

PMID: 36452334 PMC: 9701738. DOI: 10.3389/fnins.2022.993491.

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