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The effect of repeated hot water immersion on insulin sensitivity, heat shock protein 70 and inflammation in individuals with type 2 diabetes mellitus

The effect of repeated hot water immersion on insulin sensitivity, heat shock protein 70 and inflammation in individuals with type 2 diabetes mellitus
The effect of repeated hot water immersion on insulin sensitivity, heat shock protein 70 and inflammation in individuals with type 2 diabetes mellitus
Objectives: repeated hot water immersion (HWI) can improve glycaemic control in healthy individuals, but data are limited for individuals with T2DM. The present study investigated whether repeated HWI improves insulin sensitivity, inflammatory status, reduces plasma ([extracellular heat shock protein 70]) [eHSP70] and resting metabolic rate (RMR).

Materials and methods: fourteen individuals with T2DM participated in this pre- vs. post-intervention study, with outcome measures assessed in fasted (≥ 12 h) and post-prandial (2 hr post-75 g glucose ingestion) states. HWI consisted of 1 h in 40°C water (target rectal temperature 38.5 - 39°C) repeated 8-10 times within a 14-day period. Outcome measures included: insulin sensitivity, plasma [glucose], [insulin], [eHSP70], inflammatory markers, RMR and substrate utilisation.

Results: the HWI intervention increased fasted insulin sensitivity (p = 0.03) and lowered fasted plasma [insulin] (p = 0.04), but fasting plasma [glucose] (p = 0.83), [eHSP70] (p = 0.08), [IL-6] (p = 0.55), [IL-10] (p = 0.59), post-prandial insulin sensitivity (p = 0.19), plasma [glucose] (p = 0.40) and [insulin] (p = 0.47) were not different. RMR reduced (p < 0.05), although carbohydrate (p = 0.43) and fat oxidation (p = 0.99) rates were unchanged.

Conclusion: this study shows that 8-10 HWIs within a 14-day period improved fasting insulin sensitivity and plasma [insulin] in individuals with T2DM, but not when glucose tolerance is challenged. HWI also improves metabolic efficiency (i.e. reduced RMR). Together, these results could be clinically important and have implications for metabolic health outcomes and well-being in individuals with T2DM.
0193-1849
James, Thomas J.
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Corbett, Jo
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Cummings, Michael H.
49e830d1-aa87-4dd0-8258-35c3d5ac9c35
Allard, Sharon
befc9cf7-50fc-477c-ac2c-d2fe3d388ea9
Shute, Janis K.
a5eef853-50ae-4abf-9e34-1c873601437f
Belcher, Harvey
50942e41-740a-4d1f-975d-3512dd43c904
Mayes, Harry
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Gould, Alex A. M.
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Piccolo, Daniel D.
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Tipton, Michael
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Perissiou, Maria
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Saynor, Zoe L.
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Shepherd, Anthony I.
f7073e22-cda6-4816-a4b4-f6246e1aa42e
James, Thomas J.
6be2c660-a692-413e-a99a-85e3b15a8bf4
Corbett, Jo
e0e14f67-2457-42d4-8a6c-1071ffebd836
Cummings, Michael H.
49e830d1-aa87-4dd0-8258-35c3d5ac9c35
Allard, Sharon
befc9cf7-50fc-477c-ac2c-d2fe3d388ea9
Shute, Janis K.
a5eef853-50ae-4abf-9e34-1c873601437f
Belcher, Harvey
50942e41-740a-4d1f-975d-3512dd43c904
Mayes, Harry
4e02f5f7-f1d1-4b64-958e-9da75663bfbf
Gould, Alex A. M.
a1aa0c48-3e54-4859-94f2-e8b1eea2f723
Piccolo, Daniel D.
3ed451e1-cdca-4e7b-b40d-8a1e01767979
Tipton, Michael
65e7e3d3-3bf8-465a-9938-ebc9388eda36
Perissiou, Maria
c2919176-4956-4663-ab4f-7aad34fcaa1d
Saynor, Zoe L.
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Shepherd, Anthony I.
f7073e22-cda6-4816-a4b4-f6246e1aa42e

James, Thomas J., Corbett, Jo, Cummings, Michael H., Allard, Sharon, Shute, Janis K., Belcher, Harvey, Mayes, Harry, Gould, Alex A. M., Piccolo, Daniel D., Tipton, Michael, Perissiou, Maria, Saynor, Zoe L. and Shepherd, Anthony I. (2023) The effect of repeated hot water immersion on insulin sensitivity, heat shock protein 70 and inflammation in individuals with type 2 diabetes mellitus. American Journal of Physiology - Endocrinology and Metabolism. (doi:10.1152/ajpendo.00222.2023).

Record type: Article

Abstract

Objectives: repeated hot water immersion (HWI) can improve glycaemic control in healthy individuals, but data are limited for individuals with T2DM. The present study investigated whether repeated HWI improves insulin sensitivity, inflammatory status, reduces plasma ([extracellular heat shock protein 70]) [eHSP70] and resting metabolic rate (RMR).

Materials and methods: fourteen individuals with T2DM participated in this pre- vs. post-intervention study, with outcome measures assessed in fasted (≥ 12 h) and post-prandial (2 hr post-75 g glucose ingestion) states. HWI consisted of 1 h in 40°C water (target rectal temperature 38.5 - 39°C) repeated 8-10 times within a 14-day period. Outcome measures included: insulin sensitivity, plasma [glucose], [insulin], [eHSP70], inflammatory markers, RMR and substrate utilisation.

Results: the HWI intervention increased fasted insulin sensitivity (p = 0.03) and lowered fasted plasma [insulin] (p = 0.04), but fasting plasma [glucose] (p = 0.83), [eHSP70] (p = 0.08), [IL-6] (p = 0.55), [IL-10] (p = 0.59), post-prandial insulin sensitivity (p = 0.19), plasma [glucose] (p = 0.40) and [insulin] (p = 0.47) were not different. RMR reduced (p < 0.05), although carbohydrate (p = 0.43) and fat oxidation (p = 0.99) rates were unchanged.

Conclusion: this study shows that 8-10 HWIs within a 14-day period improved fasting insulin sensitivity and plasma [insulin] in individuals with T2DM, but not when glucose tolerance is challenged. HWI also improves metabolic efficiency (i.e. reduced RMR). Together, these results could be clinically important and have implications for metabolic health outcomes and well-being in individuals with T2DM.

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e-pub ahead of print date: 8 December 2023
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Identifiers

Local EPrints ID: 493861
URI: http://eprints.soton.ac.uk/id/eprint/493861
DOI: doi:10.1152/ajpendo.00222.2023
ISSN: 0193-1849
PURE UUID: c79f9e47-463d-479e-842b-44f63230f268
ORCID for Zoe L. Saynor: ORCID iD orcid.org/0000-0003-0674-8477

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Date deposited: 16 Sep 2024 16:40
Last modified: 17 Sep 2024 02:09

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Contributors

Author: Thomas J. James
Author: Jo Corbett
Author: Michael H. Cummings
Author: Sharon Allard
Author: Janis K. Shute
Author: Harvey Belcher
Author: Harry Mayes
Author: Alex A. M. Gould
Author: Daniel D. Piccolo
Author: Michael Tipton
Author: Maria Perissiou
Author: Zoe L. Saynor ORCID iD
Author: Anthony I. Shepherd

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