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Cardiac Function During Heat Stress: Impact of Short-term Passive Heat Acclimation

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Date 2020 Aug 22
PMID 32822213
Citations 9
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Abstract

A lower heart rate (HR) during heat exposure is a classic marker of heat acclimation (HA), although it remains unclear whether this adaptation occurs secondary to reduced thermal strain and/or improvements in cardiac function. We evaluated the hypothesis that short-term passive HA reduces HR and improves cardiac function during passive heating. Echocardiography was performed under thermoneutral and hyperthermic conditions in 10 healthy adults (9 men/1 woman, 29 ± 6 yr old), pre and post 7 days of controlled hyperthermia. HR ( = 0.61), stroke volume ( = 0.99), and cardiac output ( = 0.99), were similar on and of HA. Core (pre: 38.17 ± 0.42, post: 38.15 ± 0.27°C, = 0.95) and mean skin (pre: 38.24 ± 0.41, post: 38.51 ± 0.29°C, = 0.17) temperatures were similar during hyperthermic echocardiographic assessments. Cardiac systolic function was unaffected by HA ( ≥ 0.10). HA attenuated the decrease in end-diastolic volume (pre: -18 ± 18, post: -12 ± 19 mL, = 0.05), accentuated the greater atrial contribution to diastolic filling (pre: +11 ± 5, post: +14 ± 5%, = 0.02), and attenuated the increase in left atrial reservoir strain rate (pre: +1.5 ± 1.2, post: +0.8 ± 0.8 1/s, = 0.02) during heating. Nonetheless, there were no differences in HR (pre: 106 ± 12, post: 104 ± 12 beats/min, = 0.50), stroke volume (pre: 65 ± 15, post: 68 ± 13 mL, = 0.55), or cardiac output (pre: 6.9 ± 2.0, post: 7.1 ± 1.7 L/min, = 0.70) during passive heating. Short-term controlled hyperthermia HA results in limited adaptations of cardiac function during passive heating. A lower heart rate during heat exposure is a classic marker of heat acclimation (HA). It remains unknown if improved cardiac function contributes to this response. A 7-day passive HA protocol did not alter cardiac systolic function during passive heating, whereas it improved some indexes of diastolic function in young adults. Nonetheless, heart rate during heating was unaffected by HA. These results suggest that passive HA induces limited adaptations in cardiac function during passive heating.

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