Impact of whole body passive heat stress and arterial shear rate modification on radial artery function in young men.

J Appl Physiol (1985)

Faculty of Medical & Health Sciences, Department of Physiology, University of Auckland, Auckland, New Zealand.

Published: December 2020

We sought to determine how whole body heating acutely influences radial artery function, characterized using flow-mediated dilation (FMD) and low-flow-mediated constriction (L-FMC), and the mechanistic role of shear rate modification on radial artery functional characteristics during heating. Eleven young healthy men underwent whole body heating (water-perfused suit) sufficient to raise the core temperature by +1°C. Trials were repeated with (heat + WC) and without (heat) the application of a wrist cuff located distal to the radial artery examined, known to prevent increases in mean and anterograde shear rates but increase retrograde shear rate. Radial artery characteristics were assessed throughout each trial, with FMD and L-FMC assessed before and upon reaching the target core temperature. Heat markedly increased radial artery mean and anterograde shear rates, along with radial artery diameter and blood flow ( < 0.05). Heat + WC abolished the heat-induced increase in mean and anterograde shear rates ( > 0.05) but markedly increased retrograde shear rate ( < 0.05). Concomitantly, increases in radial artery diameter and blood flow were decreased (heat + WC vs. heat, < 0.05). Heat attenuated FMD (8.6 ± 1.2% vs. 2.2 ± 1.4%, < 0.05), whereas no change in FMD was observed in heat + WC (7.8 ± 1.2% vs. 10.8 ± 1.2%, > 0.05). In contrast, L-FMC was not different in either trial ( > 0.05). In summary, acute whole body heating markedly elevates radial artery shear rate, diameter, and blood flow and diminishes FMD. However, marked radial artery vasodilation and diminished FMD are absent when these shear rate changes are prevented. Shear rate modifications underpin the radial artery response to acute whole body heat stress, but further endothelium-dependent vasodilation (FMD) is attenuated likely as the vasodilatory range limit is approached. We observed that acute whole body heating elevates radial artery shear rate, diameter, and blood flow. This results in a diminished flow-meditated dilatation (FMD) but does not change low-flow-mediated constriction (L-FMC). Preventing shear rate changes during whole body heating reduces radial artery vasodilation and reverses FMD reductions but has no effect on L-FMC. These findings indicate that shear rate changes underpin conduit artery responses to acute whole body heat stress, but further endothelium-dependent flow-mediated vasodilation is attenuated as the vasodilatory range limit is approached.

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http://dx.doi.org/10.1152/japplphysiol.00296.2020DOI Listing

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