Effect of thermal stress on the vestibulosympathetic reflexes in humans

Both heat stress and vestibular activation after autonomic responses; however, the interaction of these two sympathetic activators is unknown. To determine the effect of heat stress on the vestibulosympathetic reflex, eight subjects performed static head-down rotation (HDR) during normothermia and whole body heating. Muscle sympathetic nerve activity (MSNA; peroneal microneurography), mean arterial blood pressure (MAP), heart rate (HR), and internal temperature were measured during the experimental trials. HDR during normothermia caused a significant increase in MSNA (Delta5+/-1 bursts/min; Delta53+/-14 arbitrary units/min), whereas no change was observed in MAP, HR, or internal temperature. Whole body heating significantly increased internal temperature (Delta0.9+/-0.1degreesC), MSNA (Delta10+/-3 bursts/min; Delta152+/-44 arbitrary units/min), and HR (Delta25+/-6 beats/min), but it did not alter MAP. HDR during whole body heating increased MSNA (Delta16+/-4 bursts/min; Delta233+/-90 arbitrary units/min from normotherinic baseline), which was not significantly different from the algebraic sum of HDR during normothermia and whole body heating (Delta15+/-4 bursts/min; Delta205+/-55 arbitrary units/min). These data suggest that heat stress does not modify the vestibulosympathetic reflex and that both the vestibulosympathetic and thermal reflexes are robust, independent sympathetic nervous system activators.