Effect of home-based heat therapy on 24-h blood pressure and cutaneous microvascular function in post-menopausal women with hypertension

Abstract

Hypertension is a leading risk factor for cardiovascular morbidity and mortality and is often accompanied by microvascular dysfunction. Despite a clear effcacy in men, standard antihypertensive medications are less effective in post-menopausal women. Consequently, adjuvant therapies are needed to improve blood pressure control and microvascular function in post-menopausal women. Heat therapy may fill this therapeutic gap as it has been shown to reduce blood pressure and improve microvascular function in healthy and certain clinical populations. Therefore, the purpose of this study was to test the hypothesis that 8 weeks of home-based heat therapy would improve 24-h blood pressure and cutaneous nitric oxide-dependent vasodilation in post-menopausal women with hypertension. Post-menopausal women (69 ± 5 y) with hypertension were randomized to 8 weeks of sham ( N = 15) or heat therapy ( N = 13). Participants immersed their lower legs ~33 cm into a circulated and temperature-controlled (sham: 35 °C; heat therapy: 42 °C) water bath 4 days per week, and 45 min per session. Blood pressure and cutaneous microvascular function and were assessed before (pre) and after (post) the 8-week intervention. Mean arterial blood pressure was measured across 24-h using an ambulatory monitor. To assess microvascular function, an intradermal microdialysis probe was inserted in the anterior aspect of the lower leg at a site directly exposed to water (immersed) and at another site not directly exposed (non-immersed). Red blood cell flux was measured (laser doppler flowmetry) during cutaneous hyperemia induced by 39 °C local heating. N(G)-nitro-L-arginine methyl ester (L-NAME; 20mM) was then infused in each probe until a nadir in red blood cell flux was achieved. Cutaneous vascular conductance was calculated as red blood cell flux divided by mean arterial pressure and normalized to maximal vasodilation (42 °C heating + 56 mM sodium nitroprusside; CVC%max). Nitric oxide-dependent dilation was calculated as the difference between CVC%max measured during the 39 °C plateau and the L-NAME nadir. Mean arterial blood pressure did not differ across time or between groups (sham: pre, 96 ± 5 mmHg vs. post, 96 ± 6 mmHg; heat therapy: pre, 97 ± 4 mmHg vs. 99 ± 7 mmHg; P = 0.5 for interaction). Cutaneous vasodilation induced by local heating did not differ across time for either group (sham: pre, 60 ± 19 CVC%max vs. post, 64 ± 12 CVC%max; heat therapy: pre, 68 ± 15 CVC%max vs. post, 63 ± 13 CVC%max) or between immersed and non-immersed sites ( P = 0.9 for interaction). Similarly, nitric oxide-dependent vasodilation did not differ across time or between sites for either group ( P = 1.0 for interaction). Taken together, 8 weeks of home-based heat therapy does not improve blood pressure or cutaneous microvascular function in post-menopausal women with hypertension. This work was supported by grants from the National Institutes of Health (T32 AG020494; R01AG059314; F32HL167556) and the American Heart Association (TPA958179). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.