HF model parameters.

<div><p>Humans are exposed to daily temperature differences indoors and outdoors worldwide; however, the associated risks to health and fatigue remain unclear. This study aimed to clarify the psychophysiological loads by repeated short-term temperature differences on Japanese individuals...

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Main Author:	Miho Iwasaki (22553084) (author)
Other Authors:	Yusuke Morito (16179926) (author), Kyosuke Watanabe (14214065) (author), Kiyoshi Kuroi (22553087) (author), Shota Hori (8310348) (author), Yoko Sakata (689661) (author), Kei Mizuno (15239) (author), Kazunobu Okazaki (22553090) (author), Yasuyoshi Watanabe (15245) (author)
Published:	2025
Subjects:	Molecular Biology Neuroscience Biotechnology Evolutionary Biology Ecology Developmental Biology Cancer Infectious Diseases xlink "> 26 xlink "> 21 state &# 8211 recommend best practices fatigue remain unclear autonomic nervous system 5 &# 176 15 &# 176 10 &# 176 36 </ sub 31 </ sub 26 </ sub two temperature environments 28 healthy individuals c step )]. term temperature differences estimating psychophysiological loads div >< p c step ), repeated temperature steps c step temperature steps temperature differences psychophysiological loads repeated short japanese individuals control ), sub xmlns study aimed space model repeatedly moved precisely estimated physiological responses outdoors worldwide increased low everyday scenarios direct effects continuously enhanced associated risks accumulated effects
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_version_	1852015196145451008
author	Miho Iwasaki (22553084)
author2	Yusuke Morito (16179926) Kyosuke Watanabe (14214065) Kiyoshi Kuroi (22553087) Shota Hori (8310348) Yoko Sakata (689661) Kei Mizuno (15239) Kazunobu Okazaki (22553090) Yasuyoshi Watanabe (15245)
author2_role	author author author author author author author author
author_facet	Miho Iwasaki (22553084) Yusuke Morito (16179926) Kyosuke Watanabe (14214065) Kiyoshi Kuroi (22553087) Shota Hori (8310348) Yoko Sakata (689661) Kei Mizuno (15239) Kazunobu Okazaki (22553090) Yasuyoshi Watanabe (15245)
author_role	author
dc.creator.none.fl_str_mv	Miho Iwasaki (22553084) Yusuke Morito (16179926) Kyosuke Watanabe (14214065) Kiyoshi Kuroi (22553087) Shota Hori (8310348) Yoko Sakata (689661) Kei Mizuno (15239) Kazunobu Okazaki (22553090) Yasuyoshi Watanabe (15245)
dc.date.none.fl_str_mv	2025-11-03T18:32:58Z
dc.identifier.none.fl_str_mv	10.1371/journal.pone.0335545.s003
dc.relation.none.fl_str_mv	https://figshare.com/articles/dataset/HF_model_parameters_/30523019
dc.rights.none.fl_str_mv	CC BY 4.0 info:eu-repo/semantics/openAccess
dc.subject.none.fl_str_mv	Molecular Biology Neuroscience Biotechnology Evolutionary Biology Ecology Developmental Biology Cancer Infectious Diseases xlink "> 26 xlink "> 21 state &# 8211 recommend best practices fatigue remain unclear autonomic nervous system 5 &# 176 15 &# 176 10 &# 176 36 </ sub 31 </ sub 26 </ sub two temperature environments 28 healthy individuals c step )]. term temperature differences estimating psychophysiological loads div >< p c step ), repeated temperature steps c step temperature steps temperature differences psychophysiological loads repeated short japanese individuals control ), sub xmlns study aimed space model repeatedly moved precisely estimated physiological responses outdoors worldwide increased low everyday scenarios direct effects continuously enhanced associated risks accumulated effects
dc.title.none.fl_str_mv	HF model parameters.
dc.type.none.fl_str_mv	Dataset info:eu-repo/semantics/publishedVersion dataset
description	<div><p>Humans are exposed to daily temperature differences indoors and outdoors worldwide; however, the associated risks to health and fatigue remain unclear. This study aimed to clarify the psychophysiological loads by repeated short-term temperature differences on Japanese individuals. Herein, 28 healthy individuals were repeatedly moved between two temperature environments, and their psychological/physiological responses to temperature differences in the environment were recorded [T<sub>26-26</sub> (control), T<sub>26-31</sub> (5 °C step), T<sub>26-36</sub> (10 °C step), and T<sub>21-36</sub> (15 °C step)]. We precisely estimated the accumulated effects (load) of repeated temperature steps using a Bayesian state–space model, and distinguished them from the direct effects of environmental changes. The Load to the autonomic nervous system was continuously enhanced (decreased high-frequency of RRI and increased low-frequency/high-frequency of RRI) in the trials with temperature steps, while it was less under the T<sub>21-36</sub> (15 °C step) than under the T<sub>26-36</sub> (10 °C step) condition. These findings could help formulate fatigue management approaches and recommend best practices to minimise adverse health effects related to sudden and uncontrollable environmental temperature steps/changes in everyday scenarios on the public.</p></div>
eu_rights_str_mv	openAccess
id	Manara_a021eff26bf0f5ea486faae07e5985ef
identifier_str_mv	10.1371/journal.pone.0335545.s003
network_acronym_str	Manara
network_name_str	ManaraRepo
oai_identifier_str	oai:figshare.com:article/30523019
publishDate	2025
repository.mail.fl_str_mv
repository.name.fl_str_mv
repository_id_str
rights_invalid_str_mv	CC BY 4.0
spelling	HF model parameters.Miho Iwasaki (22553084)Yusuke Morito (16179926)Kyosuke Watanabe (14214065)Kiyoshi Kuroi (22553087)Shota Hori (8310348)Yoko Sakata (689661)Kei Mizuno (15239)Kazunobu Okazaki (22553090)Yasuyoshi Watanabe (15245)Molecular BiologyNeuroscienceBiotechnologyEvolutionary BiologyEcologyDevelopmental BiologyCancerInfectious Diseasesxlink "> 26xlink "> 21state &# 8211recommend best practicesfatigue remain unclearautonomic nervous system5 &# 17615 &# 17610 &# 17636 </ sub31 </ sub26 </ subtwo temperature environments28 healthy individualsc step )].term temperature differencesestimating psychophysiological loadsdiv >< pc step ),repeated temperature stepsc steptemperature stepstemperature differencespsychophysiological loadsrepeated shortjapanese individualscontrol ),sub xmlnsstudy aimedspace modelrepeatedly movedprecisely estimatedphysiological responsesoutdoors worldwideincreased loweveryday scenariosdirect effectscontinuously enhancedassociated risksaccumulated effects<div><p>Humans are exposed to daily temperature differences indoors and outdoors worldwide; however, the associated risks to health and fatigue remain unclear. This study aimed to clarify the psychophysiological loads by repeated short-term temperature differences on Japanese individuals. Herein, 28 healthy individuals were repeatedly moved between two temperature environments, and their psychological/physiological responses to temperature differences in the environment were recorded [T<sub>26-26</sub> (control), T<sub>26-31</sub> (5 °C step), T<sub>26-36</sub> (10 °C step), and T<sub>21-36</sub> (15 °C step)]. We precisely estimated the accumulated effects (load) of repeated temperature steps using a Bayesian state–space model, and distinguished them from the direct effects of environmental changes. The Load to the autonomic nervous system was continuously enhanced (decreased high-frequency of RRI and increased low-frequency/high-frequency of RRI) in the trials with temperature steps, while it was less under the T<sub>21-36</sub> (15 °C step) than under the T<sub>26-36</sub> (10 °C step) condition. These findings could help formulate fatigue management approaches and recommend best practices to minimise adverse health effects related to sudden and uncontrollable environmental temperature steps/changes in everyday scenarios on the public.</p></div>2025-11-03T18:32:58ZDatasetinfo:eu-repo/semantics/publishedVersiondataset10.1371/journal.pone.0335545.s003https://figshare.com/articles/dataset/HF_model_parameters_/30523019CC BY 4.0info:eu-repo/semantics/openAccessoai:figshare.com:article/305230192025-11-03T18:32:58Z
spellingShingle	HF model parameters. Miho Iwasaki (22553084) Molecular Biology Neuroscience Biotechnology Evolutionary Biology Ecology Developmental Biology Cancer Infectious Diseases xlink "> 26 xlink "> 21 state &# 8211 recommend best practices fatigue remain unclear autonomic nervous system 5 &# 176 15 &# 176 10 &# 176 36 </ sub 31 </ sub 26 </ sub two temperature environments 28 healthy individuals c step )]. term temperature differences estimating psychophysiological loads div >< p c step ), repeated temperature steps c step temperature steps temperature differences psychophysiological loads repeated short japanese individuals control ), sub xmlns study aimed space model repeatedly moved precisely estimated physiological responses outdoors worldwide increased low everyday scenarios direct effects continuously enhanced associated risks accumulated effects
status_str	publishedVersion
title	HF model parameters.
title_full	HF model parameters.
title_fullStr	HF model parameters.
title_full_unstemmed	HF model parameters.
title_short	HF model parameters.
title_sort	HF model parameters.
topic	Molecular Biology Neuroscience Biotechnology Evolutionary Biology Ecology Developmental Biology Cancer Infectious Diseases xlink "> 26 xlink "> 21 state &# 8211 recommend best practices fatigue remain unclear autonomic nervous system 5 &# 176 15 &# 176 10 &# 176 36 </ sub 31 </ sub 26 </ sub two temperature environments 28 healthy individuals c step )]. term temperature differences estimating psychophysiological loads div >< p c step ), repeated temperature steps c step temperature steps temperature differences psychophysiological loads repeated short japanese individuals control ), sub xmlns study aimed space model repeatedly moved precisely estimated physiological responses outdoors worldwide increased low everyday scenarios direct effects continuously enhanced associated risks accumulated effects

HF model parameters.

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