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Timing of acute passive heating on glucose tolerance and blood pressure in people with type 2 diabetes: a randomized, balanced crossover, control trial

Timing of acute passive heating on glucose tolerance and blood pressure in people with type 2 diabetes: a randomized, balanced crossover, control trial
Timing of acute passive heating on glucose tolerance and blood pressure in people with type 2 diabetes: a randomized, balanced crossover, control trial
Type 2 diabetes mellitus (T2DM) is characterized by chronic hyperglycemia and progressive insulin resistance, leading to macro and microvascular dysfunction. Passive heating has potential to improve glucose homeostasis and act as an exercise mimetic. We assessed the effect of acute passive heating before or during an oral glucose tolerance test (OGTT) in people with T2DM. Twelve people with T2DM were randomly assigned to 3 conditions:1) 3 h OGTT (CON); 2) 1 h passive heating (40 °C water) 30 min before an OGTT (HOT-OGTT); and 3) 1 h passive heating (40 °C water) 30 min after commencing an OGTT (OGTT-HOT). Blood [glucose], insulin sensitivity, extracellular heat shock protein 70 (eHSP70), total energy expenditure (TEE), heart rate (HR), systolic (SBP) and diastolic blood pressure (DBP) were recorded. Passive heating did not alter blood [glucose] (CON, 1,677 (386) a.u.; HOT-OGTT, 1,797 (340) a.u.; OGTT-HOT, 1,662 (364) a.u.; P = 0.28), insulin sensitivity (P = 0.15), or SBP (P = 0.18), but did increase [eHSP70] in both heating conditions (CON, 203.48 (110.81) pg·mL-1; HOT-OGTT, 402.47 (79.02) pg·mL-1; OGTT-HOT, 310.00 (60.53) pg·mL-1; P < 0.001), increased TEE (via fat oxidation) in the OGTT-HOT condition (CON, 263 (33) kcal; HOT-OGTT, 278 (40) kcal; OGTT-HOT, 304 (38) kcal; P = 0.001), increased HR in both heating conditions (P < 0.001) and reduced DBP in OGTT-HOT condition (P < 0.01). Passive heating in close proximity to a glucose challenge does not alter glucose tolerance but does increase [eHSP70] and TEE, and reduce blood pressure in people with T2DM.
glucose, hot water, insulin, insulin sensitivity, metabolic
8750-7587
1093-1105
James, Thomas Joseph
72978364-daf2-44b1-b5bc-07192f06c680
Corbett, Jo
e0e14f67-2457-42d4-8a6c-1071ffebd836
Cummings, Michael
49e830d1-aa87-4dd0-8258-35c3d5ac9c35
Allard, Sharon
befc9cf7-50fc-477c-ac2c-d2fe3d388ea9
Young, John S.
75ce2996-6999-45ea-9ba9-e854b187185e
Towse, Jonathan
a3e98490-5b85-497f-89ff-ca584b09f06a
Carey-Jones, Kathryn
f327964e-4b3a-4ef1-a34a-71cbb84bbf49
Eglin, Clare
014880ef-8dc2-49fc-858f-7535b4b475cb
Hopkins, Billy
27f45d88-6eb2-4b0c-be0c-2c59f53aab6a
Morgan, Connor
21f11fc3-0782-4f21-a57f-a02604397299
Tipton, Mike
2cc2fa31-9fdf-497d-acf0-18d935bb6db5
Saynor, Zoe L.
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Shepherd, Anthony I.
7103ee4b-4fb4-41e0-8f00-9e647e15b3fb
James, Thomas Joseph
72978364-daf2-44b1-b5bc-07192f06c680
Corbett, Jo
e0e14f67-2457-42d4-8a6c-1071ffebd836
Cummings, Michael
49e830d1-aa87-4dd0-8258-35c3d5ac9c35
Allard, Sharon
befc9cf7-50fc-477c-ac2c-d2fe3d388ea9
Young, John S.
75ce2996-6999-45ea-9ba9-e854b187185e
Towse, Jonathan
a3e98490-5b85-497f-89ff-ca584b09f06a
Carey-Jones, Kathryn
f327964e-4b3a-4ef1-a34a-71cbb84bbf49
Eglin, Clare
014880ef-8dc2-49fc-858f-7535b4b475cb
Hopkins, Billy
27f45d88-6eb2-4b0c-be0c-2c59f53aab6a
Morgan, Connor
21f11fc3-0782-4f21-a57f-a02604397299
Tipton, Mike
2cc2fa31-9fdf-497d-acf0-18d935bb6db5
Saynor, Zoe L.
a4357c7d-db59-4fa5-b24f-58d2f7e74e39
Shepherd, Anthony I.
7103ee4b-4fb4-41e0-8f00-9e647e15b3fb

James, Thomas Joseph, Corbett, Jo, Cummings, Michael, Allard, Sharon, Young, John S., Towse, Jonathan, Carey-Jones, Kathryn, Eglin, Clare, Hopkins, Billy, Morgan, Connor, Tipton, Mike, Saynor, Zoe L. and Shepherd, Anthony I. (2021) Timing of acute passive heating on glucose tolerance and blood pressure in people with type 2 diabetes: a randomized, balanced crossover, control trial. Journal of Applied Physiology, 130 (4), 1093-1105. (doi:10.1152/japplphysiol.00747.2020).

Record type: Article

Abstract

Type 2 diabetes mellitus (T2DM) is characterized by chronic hyperglycemia and progressive insulin resistance, leading to macro and microvascular dysfunction. Passive heating has potential to improve glucose homeostasis and act as an exercise mimetic. We assessed the effect of acute passive heating before or during an oral glucose tolerance test (OGTT) in people with T2DM. Twelve people with T2DM were randomly assigned to 3 conditions:1) 3 h OGTT (CON); 2) 1 h passive heating (40 °C water) 30 min before an OGTT (HOT-OGTT); and 3) 1 h passive heating (40 °C water) 30 min after commencing an OGTT (OGTT-HOT). Blood [glucose], insulin sensitivity, extracellular heat shock protein 70 (eHSP70), total energy expenditure (TEE), heart rate (HR), systolic (SBP) and diastolic blood pressure (DBP) were recorded. Passive heating did not alter blood [glucose] (CON, 1,677 (386) a.u.; HOT-OGTT, 1,797 (340) a.u.; OGTT-HOT, 1,662 (364) a.u.; P = 0.28), insulin sensitivity (P = 0.15), or SBP (P = 0.18), but did increase [eHSP70] in both heating conditions (CON, 203.48 (110.81) pg·mL-1; HOT-OGTT, 402.47 (79.02) pg·mL-1; OGTT-HOT, 310.00 (60.53) pg·mL-1; P < 0.001), increased TEE (via fat oxidation) in the OGTT-HOT condition (CON, 263 (33) kcal; HOT-OGTT, 278 (40) kcal; OGTT-HOT, 304 (38) kcal; P = 0.001), increased HR in both heating conditions (P < 0.001) and reduced DBP in OGTT-HOT condition (P < 0.01). Passive heating in close proximity to a glucose challenge does not alter glucose tolerance but does increase [eHSP70] and TEE, and reduce blood pressure in people with T2DM.

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Accepted/In Press date: 11 December 2020
Published date: 16 April 2021
Keywords: glucose, hot water, insulin, insulin sensitivity, metabolic
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Identifiers

Local EPrints ID: 493855
URI: http://eprints.soton.ac.uk/id/eprint/493855
DOI: doi:10.1152/japplphysiol.00747.2020
ISSN: 8750-7587
PURE UUID: 484adef1-dc46-4197-9a4a-014f960326e0
ORCID for Zoe L. Saynor: ORCID iD orcid.org/0000-0003-0674-8477

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Date deposited: 16 Sep 2024 16:34
Last modified: 17 Sep 2024 02:09

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Contributors

Author: Thomas Joseph James
Author: Jo Corbett
Author: Michael Cummings
Author: Sharon Allard
Author: John S. Young
Author: Jonathan Towse
Author: Kathryn Carey-Jones
Author: Clare Eglin
Author: Billy Hopkins
Author: Connor Morgan
Author: Mike Tipton
Author: Zoe L. Saynor ORCID iD
Author: Anthony I. Shepherd

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