Presentation Type
Poster Presentation
Category
STEM (science, technology, engineering, mathematics)
Abstract/Artist Statement
Females are underrepresented in thermoregulatory research and thus there is a need to examine how sex-related differences impact heat acclimation. Moreover, current global heatwave incidences warrant investigation into optimizing strategies for human tolerance to heat. PURPOSE: Determine how sex and temporally partitioning identical heat exposure time impacts heat acclimation. METHODS: Over a week, 30 females and 30 males were heat acclimated daily (38°C, 60% RH) on a treadmill (1.6 m·s-1, 5% grade) in one of two 90-minute exposure groups. Sustained groups completed 90-minute sessions continuously and periodic groups completed three separate 30-minute sessions 3 hours apart. Heat exposure time was identical across four groups of 15 participants: sustained male, sustained female, periodic male, and periodic female. On Days 1, 4, and 7 body temperatures, sweat metrics, and skin blood flow (SkBF) were measured during the first 30 minutes of heat exposure. RESULTS: Sex differences were present throughout heat acclimation. Core (p0.05). Regardless of group, core temperature at onset of sweat decreased throughout heat acclimation (37.3±0.4, 37.2±0.4, 37.1±0.5°C, pCONCLUSION: Thermoregulatory sex-differences are present prior to and continue throughout 7-days of heat acclimation. Only the sustained group experienced physiological changes indicative of heat acclimation whereas the periodic group did not. Thus, temporally partitioning identical heat exposure time insufficiently induces heat acclimation.
Mentor Name
Dustin Slivka
The Impact of Sex and Heat Exposure Schedule on Heat Acclimation
UC North Ballroom
Females are underrepresented in thermoregulatory research and thus there is a need to examine how sex-related differences impact heat acclimation. Moreover, current global heatwave incidences warrant investigation into optimizing strategies for human tolerance to heat. PURPOSE: Determine how sex and temporally partitioning identical heat exposure time impacts heat acclimation. METHODS: Over a week, 30 females and 30 males were heat acclimated daily (38°C, 60% RH) on a treadmill (1.6 m·s-1, 5% grade) in one of two 90-minute exposure groups. Sustained groups completed 90-minute sessions continuously and periodic groups completed three separate 30-minute sessions 3 hours apart. Heat exposure time was identical across four groups of 15 participants: sustained male, sustained female, periodic male, and periodic female. On Days 1, 4, and 7 body temperatures, sweat metrics, and skin blood flow (SkBF) were measured during the first 30 minutes of heat exposure. RESULTS: Sex differences were present throughout heat acclimation. Core (p0.05). Regardless of group, core temperature at onset of sweat decreased throughout heat acclimation (37.3±0.4, 37.2±0.4, 37.1±0.5°C, pCONCLUSION: Thermoregulatory sex-differences are present prior to and continue throughout 7-days of heat acclimation. Only the sustained group experienced physiological changes indicative of heat acclimation whereas the periodic group did not. Thus, temporally partitioning identical heat exposure time insufficiently induces heat acclimation.