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Heat acclimation improves sweat gland function and lowers sweat sodium concentration in an adult with cystic fibrosis

Heat acclimation improves sweat gland function and lowers sweat sodium concentration in an adult with cystic fibrosis
Heat acclimation improves sweat gland function and lowers sweat sodium concentration in an adult with cystic fibrosis
We present novel data concerning the time-course of adaptations and potential benefits of heat acclimation for people with cystic fibrosis (pwCF), who are at greater risk of exertional heat illness. A 25-year-old male (genotype: delta-F508 and RH117, forced expiratory volume in 1-second: 77% predicted and baseline sweat [Na+]: 70 mmol·L − 1), who had previously experienced muscle cramping during exercise in ambient heat, underwent 10-sessions of heat acclimation (90-min at 40°C and in 40% relative humidity). Adaptations included; lower resting core temperature (-0.40°C) and heart rate (-6 beats·min−1), plasma volume expansion (+6.0%) and, importantly, increased sweat loss (+370 mL) and sweat gland activity (+12 glands·cm2) with decreased sweat [Na+] (-18 mmol·L − 1). Adaptations were maintained for at least 7-days, with no evidence of cramping during follow-up exercise-heat stress testing. These data suggest pwCF may benefit from heat acclimation to induce sudomotor function improvements, particularly reductions in sweat [Na+], however, further research is required.
heat acclimation, cystic fibrosis, sweat sodium concentration, adaptation, heat stress
1569-1993
485 - 488
Willmott, Ashley G. B.
ced36ed9-ed27-43e7-b7ca-0494a1bda4bf
Holliss, Robert
4796d273-9ef0-4b54-ac98-2e22442c7966
Saynor, Zoe
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Corbett, Jo
e0e14f67-2457-42d4-8a6c-1071ffebd836
Causer, Adam J.
17d4182a-d52f-4b92-89fc-99cec813e98d
Maxwell, Neil S.
84c863ee-67cb-454d-a8c0-0e811de0d74b
Willmott, Ashley G. B.
ced36ed9-ed27-43e7-b7ca-0494a1bda4bf
Holliss, Robert
4796d273-9ef0-4b54-ac98-2e22442c7966
Saynor, Zoe
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Corbett, Jo
e0e14f67-2457-42d4-8a6c-1071ffebd836
Causer, Adam J.
17d4182a-d52f-4b92-89fc-99cec813e98d
Maxwell, Neil S.
84c863ee-67cb-454d-a8c0-0e811de0d74b

Willmott, Ashley G. B., Holliss, Robert, Saynor, Zoe, Corbett, Jo, Causer, Adam J. and Maxwell, Neil S. (2020) Heat acclimation improves sweat gland function and lowers sweat sodium concentration in an adult with cystic fibrosis. Journal of Cystic Fibrosis, 20 (3), 485 - 488. (doi:10.1016/j.jcf.2020.07.013).

Record type: Article

Abstract

We present novel data concerning the time-course of adaptations and potential benefits of heat acclimation for people with cystic fibrosis (pwCF), who are at greater risk of exertional heat illness. A 25-year-old male (genotype: delta-F508 and RH117, forced expiratory volume in 1-second: 77% predicted and baseline sweat [Na+]: 70 mmol·L − 1), who had previously experienced muscle cramping during exercise in ambient heat, underwent 10-sessions of heat acclimation (90-min at 40°C and in 40% relative humidity). Adaptations included; lower resting core temperature (-0.40°C) and heart rate (-6 beats·min−1), plasma volume expansion (+6.0%) and, importantly, increased sweat loss (+370 mL) and sweat gland activity (+12 glands·cm2) with decreased sweat [Na+] (-18 mmol·L − 1). Adaptations were maintained for at least 7-days, with no evidence of cramping during follow-up exercise-heat stress testing. These data suggest pwCF may benefit from heat acclimation to induce sudomotor function improvements, particularly reductions in sweat [Na+], however, further research is required.

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Accepted/In Press date: 16 July 2020
Published date: 2 August 2020
Keywords: heat acclimation, cystic fibrosis, sweat sodium concentration, adaptation, heat stress
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Identifiers

Local EPrints ID: 494355
URI: http://eprints.soton.ac.uk/id/eprint/494355
DOI: doi:10.1016/j.jcf.2020.07.013
ISSN: 1569-1993
PURE UUID: 468e4be6-6763-4456-ac5c-022482e62169
ORCID for Zoe Saynor: ORCID iD orcid.org/0000-0003-0674-8477

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Date deposited: 04 Oct 2024 17:07
Last modified: 05 Oct 2024 02:18

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Contributors

Author: Ashley G. B. Willmott
Author: Robert Holliss
Author: Zoe Saynor ORCID iD
Author: Jo Corbett
Author: Adam J. Causer
Author: Neil S. Maxwell

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