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Effect of condensed heat acclimation on thermophysiological adaptations, hypoxic cross-tolerance, exercise performance, and deacclimation

Effect of condensed heat acclimation on thermophysiological adaptations, hypoxic cross-tolerance, exercise performance, and deacclimation
Effect of condensed heat acclimation on thermophysiological adaptations, hypoxic cross-tolerance, exercise performance, and deacclimation

Short duration heat acclimation (HA) (≤5 daily heat exposures) elicits incomplete adaptation compared with longer interventions, possibly due to the lower accumulated thermal “dose.” It is unknown if matching thermal “dose” over a shorter timescale elicits comparable adaptation to a longer intervention. Using a parallel-groups design, we compared: 1) “condensed” HA (CHA; n = 17 males) consisting of 4 ͓ 75 min·day -1 heat exposures [target rectal temperature (T rec) = 38.5 ̥C] for two consecutive days, with 2) “traditional” HA (THA; n = 15 males) consisting of 1 ͓ 75 min·day -1 heat exposure (target T rec = 38.5 ̥C) for eight consecutive days. Physiological responses to exercise heat stress, hypoxia, and normoxic exercise performance were evaluated pre- and postintervention. Thermal (T rec over final 45 min: CHA = 38.45 ± 0.17 ̥C, THA = 38.53 ± 0.13 ̥C, P = 0.126) and cardiovascular strain were not different during interventions, indicating similar thermal “dose,” although CHA had lower sweating rate, higher starting T rec, and greater inflammation, gastrointestinal permeability, and renal stress (P < 0.05). However, CHA elicited an array of thermophysiological adaptations that did not differ from THA [reduced indices of peak thermal (e.g., D peak T rec CHA = -0.28 ± 0.26 ̥C, THA = -0.36 ± 0.17 ̥C, P = 0.303) and cardiovascular strain, inflammation, and renal stress; blood and plasma volume expansion; improved perceptual indices], although improvements in resting thermal strain (e.g., D resting T rec CHA = -0.14 ± 0.21 ̥C, THA = -0.35 ± 0.29 ̥C, P = 0.027) and sweating rate were less with CHA. Both interventions improved aspects of hypoxic tolerance, but effects on temperate normoxic exercise indices were limited. The diminished thermal strain was well-maintained over a 22-day decay period. In conclusion, CHA could represent a viable acclimation option for time-restricted young healthy males preparing for a hot, and possibly high-altitude, environment.

acclimatization, cross-tolerance, environmental physiology
8750-7587
634-650
Stevens, Charlotte
ffdab1ae-b032-4406-a5bd-c425c4b683b7
Costello, Joseph T.
148df7f6-213d-4c86-b159-99147ab384be
Tipton, Michael J.
2ac998cc-61e5-4fb5-ae87-d955a90f1fe9
Walker, Ella F.
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Gould, Alex A. M.
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Young, John S.
24afdda6-8353-401c-a044-57e927f4b833
Lee, Ben J.
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Williams, Thomas B.
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Myers, Fiona A.
e5404f6b-2c32-40bc-b020-7e0c7dd4c96e
Corbett, Jo
af93fc35-8071-42e4-ac27-e78311d480b5
Stevens, Charlotte
ffdab1ae-b032-4406-a5bd-c425c4b683b7
Costello, Joseph T.
148df7f6-213d-4c86-b159-99147ab384be
Tipton, Michael J.
2ac998cc-61e5-4fb5-ae87-d955a90f1fe9
Walker, Ella F.
1ad68c90-4bad-4f4d-bf47-402e0451e324
Gould, Alex A. M.
676342d9-7b1e-4868-9ec8-46f566846efa
Young, John S.
24afdda6-8353-401c-a044-57e927f4b833
Lee, Ben J.
a924bfda-7caf-4e59-8023-5d0fc6318136
Williams, Thomas B.
ad47f738-e599-4d07-9007-1ee3c69b8dcf
Myers, Fiona A.
e5404f6b-2c32-40bc-b020-7e0c7dd4c96e
Corbett, Jo
af93fc35-8071-42e4-ac27-e78311d480b5

Stevens, Charlotte, Costello, Joseph T., Tipton, Michael J., Walker, Ella F., Gould, Alex A. M., Young, John S., Lee, Ben J., Williams, Thomas B., Myers, Fiona A. and Corbett, Jo (2025) Effect of condensed heat acclimation on thermophysiological adaptations, hypoxic cross-tolerance, exercise performance, and deacclimation. Journal of Applied Physiology, 138 (3), 634-650. (doi:10.1152/japplphysiol.00775.2024).

Record type: Article

Abstract

Short duration heat acclimation (HA) (≤5 daily heat exposures) elicits incomplete adaptation compared with longer interventions, possibly due to the lower accumulated thermal “dose.” It is unknown if matching thermal “dose” over a shorter timescale elicits comparable adaptation to a longer intervention. Using a parallel-groups design, we compared: 1) “condensed” HA (CHA; n = 17 males) consisting of 4 ͓ 75 min·day -1 heat exposures [target rectal temperature (T rec) = 38.5 ̥C] for two consecutive days, with 2) “traditional” HA (THA; n = 15 males) consisting of 1 ͓ 75 min·day -1 heat exposure (target T rec = 38.5 ̥C) for eight consecutive days. Physiological responses to exercise heat stress, hypoxia, and normoxic exercise performance were evaluated pre- and postintervention. Thermal (T rec over final 45 min: CHA = 38.45 ± 0.17 ̥C, THA = 38.53 ± 0.13 ̥C, P = 0.126) and cardiovascular strain were not different during interventions, indicating similar thermal “dose,” although CHA had lower sweating rate, higher starting T rec, and greater inflammation, gastrointestinal permeability, and renal stress (P < 0.05). However, CHA elicited an array of thermophysiological adaptations that did not differ from THA [reduced indices of peak thermal (e.g., D peak T rec CHA = -0.28 ± 0.26 ̥C, THA = -0.36 ± 0.17 ̥C, P = 0.303) and cardiovascular strain, inflammation, and renal stress; blood and plasma volume expansion; improved perceptual indices], although improvements in resting thermal strain (e.g., D resting T rec CHA = -0.14 ± 0.21 ̥C, THA = -0.35 ± 0.29 ̥C, P = 0.027) and sweating rate were less with CHA. Both interventions improved aspects of hypoxic tolerance, but effects on temperate normoxic exercise indices were limited. The diminished thermal strain was well-maintained over a 22-day decay period. In conclusion, CHA could represent a viable acclimation option for time-restricted young healthy males preparing for a hot, and possibly high-altitude, environment.

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Accepted/In Press date: 3 January 2025
Published date: 17 January 2025
Additional Information: Publisher Copyright: Copyright © 2025 The Authors.
Keywords: acclimatization, cross-tolerance, environmental physiology

Identifiers

Local EPrints ID: 506866
URI: http://eprints.soton.ac.uk/id/eprint/506866
DOI: doi:10.1152/japplphysiol.00775.2024
ISSN: 8750-7587
PURE UUID: 2a7bdf03-c1ea-4367-a225-2be43aa30b24
ORCID for Charlotte Stevens: ORCID iD orcid.org/0009-0009-7612-6228

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Date deposited: 19 Nov 2025 17:41
Last modified: 20 Nov 2025 03:11

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Contributors

Author: Charlotte Stevens ORCID iD
Author: Joseph T. Costello
Author: Michael J. Tipton
Author: Ella F. Walker
Author: Alex A. M. Gould
Author: John S. Young
Author: Ben J. Lee
Author: Thomas B. Williams
Author: Fiona A. Myers
Author: Jo Corbett

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