Poster Session II

Project Type

Poster - Campus Access Only

Project Funding and Affiliations

Supported by the United States Department of Defense, Department of the Air Force (FA8650-19-C6124), Cardiopulmonary and Cancer Rehabilitation Laboratory, and the Center for Work Physiology and Exercise Metabolism.

Faculty Mentor’s Full Name

John Quindry

Faculty Mentor’s Department

Integrative Physiology and Athletic Training

Abstract / Artist's Statement

Understanding thermoregulatory acclimation during work challenges in both females and males remains an active area of environmental physiology research. Myriad body-wide adaptive responses are frequently influenced by a milieu of circulating factors, including blood markers of vascular inflammation. How these markers respond to variations in acute and repeated challenges of exercise+heat may influence heat acclimation outcomes. PURPOSE: To quantify circulating markers of vascular inflammation following either sustained (1x 90 minutes) or intermittent (3x 30 Minutes) exercise+heat exposure protocols. METHODS: Females and males (n=30 each) were randomized to receive a week of low intensity exercise performed during one of two identically timed (90 minute) heat exposures. Gender-based groups (n=15 each) performed either sustained (90 minutes) or intermittent (3x 30 minutes, 3-hour separation) heat exposure (38°C, 60% RH) while walking on a treadmill (1.6 m·s-1, 5% grade). Blood samples drawn Pre and Post the first 30 minutes of exercise on days 1 and 7 were examined for vascular inflammation markers, including bFGF, Fit-1, ICAM, INF-y, IL-10, 1L-12p40, IL-15, IL-16, IL-17b, IL-17c, IL1Ra, IL-6, IL-7, IL-8, PIGF, Tie-2, VEGF, VEGFa, VEGFc, VEGFd, and CRP. RESULTS: Pre-Post increases were present on day 1 and day 7 for 12/20 markers (bFGF, Fit-1, ICAM, IL-16, IL-17b, IL-6, IL-7, IL-8, PIGF, VEGFa, VEGFc, VEGFd; CONCLUSION: Low intensity exercise results in a comparable elevation of circulating markers of vascular inflammation for sustained and intermittent heating protocols. Moreover, females – but not males - expressed an increase in several VEGF isoforms, a finding that suggests that heat acclimation differences between males and females may be linked to circulating factors associated with vascular inflammation.

Category

Life Sciences

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Apr 25th, 2:30 PM Apr 25th, 3:30 PM

The Heat Exposure Schedule on Vascular Inflammation Responses to Heat Acclimation

UC South Ballroom

Understanding thermoregulatory acclimation during work challenges in both females and males remains an active area of environmental physiology research. Myriad body-wide adaptive responses are frequently influenced by a milieu of circulating factors, including blood markers of vascular inflammation. How these markers respond to variations in acute and repeated challenges of exercise+heat may influence heat acclimation outcomes. PURPOSE: To quantify circulating markers of vascular inflammation following either sustained (1x 90 minutes) or intermittent (3x 30 Minutes) exercise+heat exposure protocols. METHODS: Females and males (n=30 each) were randomized to receive a week of low intensity exercise performed during one of two identically timed (90 minute) heat exposures. Gender-based groups (n=15 each) performed either sustained (90 minutes) or intermittent (3x 30 minutes, 3-hour separation) heat exposure (38°C, 60% RH) while walking on a treadmill (1.6 m·s-1, 5% grade). Blood samples drawn Pre and Post the first 30 minutes of exercise on days 1 and 7 were examined for vascular inflammation markers, including bFGF, Fit-1, ICAM, INF-y, IL-10, 1L-12p40, IL-15, IL-16, IL-17b, IL-17c, IL1Ra, IL-6, IL-7, IL-8, PIGF, Tie-2, VEGF, VEGFa, VEGFc, VEGFd, and CRP. RESULTS: Pre-Post increases were present on day 1 and day 7 for 12/20 markers (bFGF, Fit-1, ICAM, IL-16, IL-17b, IL-6, IL-7, IL-8, PIGF, VEGFa, VEGFc, VEGFd; CONCLUSION: Low intensity exercise results in a comparable elevation of circulating markers of vascular inflammation for sustained and intermittent heating protocols. Moreover, females – but not males - expressed an increase in several VEGF isoforms, a finding that suggests that heat acclimation differences between males and females may be linked to circulating factors associated with vascular inflammation.