Heat-related changes in the velocity and kinetic energy of flowing blood influence the human heart's output during hyperthermia
Watanabe, K, Esteves, N K, Gibson, O, Akiyama, K, Watanabe, S and Gonzalez-Alonso, J (2024) Heat-related changes in the velocity and kinetic energy of flowing blood influence the human heart's output during hyperthermia. Journal of Physiology, 602. pp. 2227-2251. ISSN 1469-7793
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Esteves N K 2024 JofP Full article.pdf - Published Version Available under License Creative Commons Attribution. Download (3MB) |
Abstract
Passive whole-body hyperthermia increases limb blood flow and cardiac output ( ), but the interplay between peripheral and central thermo-haemodynamic mechanisms remains unclear. Here we tested the hypothesis that local hyperthermia-induced alterations in peripheral blood flow and blood kinetic energy modulate flow to the heart and . Body temperatures, regional (leg, arm, head) and systemic haemodynamics, and left ventricular (LV) volumes and functions were assessed in eight healthy males during: (1) 3 h control (normothermic condition); (2) 3 h of single-leg heating; (3) 3 h of two-leg heating; and (4) 2.5 h of whole-body heating. Leg, forearm, and extracranial blood flow increased in close association with local rises in temperature while brain perfusion remained unchanged. Increases in blood velocity with small to no changes in the conduit artery diameter underpinned the augmented limb and extracranial perfusion. In all heating conditions, increased in association with proportional elevations in systemic vascular conductance, related to enhanced blood flow, blood velocity, vascular conductance and kinetic energy in the limbs and head (all R2 ≥ 0.803; P < 0.001), but not in the brain. LV systolic (end-systolic elastance and twist) and diastolic functional profiles (untwisting rate), pulmonary ventilation and systemic aerobic metabolism were only altered in whole-body heating. These findings substantiate the idea that local hyperthermia-induced selective alterations in peripheral blood flow modulate the magnitude of flow to the heart and through changes in blood velocity and kinetic energy. Localised heat-activated events in the peripheral circulation therefore affect the human heart's output.
| Item Type: | Article |
|---|---|
| Schools: | UCO School of Osteopathy |
| Depositing User: | Bridget Roberts |
| Date Deposited: | 02 Oct 2025 11:17 |
| Last Modified: | 02 Oct 2025 11:17 |
| URI: | https://hsu.repository.guildhe.ac.uk/id/eprint/561 |
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