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• W2093232225 abstract "Abstract Blood marker concentrations such as cortisol (COR) and interleukin (IL)-6 are commonly used to evaluate the physiological strain associated with work in the heat. It is unclear, however, if hot environments of an equivalent thermal stress, as defined by a similar wet bulb globe temperature (WBGT), result in similar response patterns. This study examined markers of neuroendocrine (COR) and immune (IL-6) responses, as well as the cardiovascular and thermal responses, relative to changes in body heat content measured by whole-body direct calorimetry during work in two different hot environments with equivalent WBGT. Eight males performed a 2-hr heavy intermittent exercise protocol (six 15-min bouts of cycling at a constant rate of metabolic heat production (360W) interspersed by 5-min rest periods) in Hot/Dry (46°C, 10% relative humidity [RH]) and Warm/Humid (33°C, 60% RH) conditions (WBGT ∼ 29°C). Whole-body evaporative and dry heat exchange, change in body heat content (ΔHb), rectal temperature (Tre), and heart rate were measured continuously. Venous blood was obtained at rest (PRE) and the end of each exercise bout for the measurement of changes in plasma volume (PV), plasma protein (an estimate of plasma water changes), COR, and IL-6. Ratings of perceived exertion and thermal sensation were measured during the last minute of each exercise bout. No differences existed for ΔHb, heart rate, Tre,%ΔPV, plasma protein concentration, perceptual strain (thermal sensation, perceived exertion), and COR between the Hot/Dry and Warm/Humid conditions. IL-6 exhibited an interaction effect (p = 0.041), such that greater increases were observed in the Hot/Dry (Δ = 1.61 pg·mL−1) compared with the Warm/Humid (Δ = 0.64 pg·mL−1) environment. These findings indicate that work performed in two different hot environments with equivalent WBGT resulted in similar levels of thermal, cardiovascular, and perceptual strain, which support the use of the WBGT stress index. However, the greater IL-6 response in the Hot/Dry requires further research to elucidate the effects of different hot environments and work intensities. Keywords: body heat contentcalorimetrycore temperatureheat stressneuroendocrine and immune responseswork ACKNOWLEDGMENTS This study was supported by the Deep Mining Research Consortium, which comprises Agnico-Eagle Mines Ltd., Barrick Gold Corporation, Vale, Rio Tinto PLC, Xstrata- Copper, and Xstrata Nickel. Funding support was provided through the Canadian Mining Industry Research Organization and by the Leaders Opportunity Fund from the Canada Foundation for Innovation (funds held by Glen Kenny). Dr. Kenny was supported by a University of Ottawa Research Chair Award. The authors wish to thank the participants for their time and effort, and Dr. Francois Haman for the freezer (used to store the blood samples) and the use of his analytical equipment." @default.
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• W2093232225 date "2012-04-01" @default.
• W2093232225 modified "2023-10-18" @default.
• W2093232225 title "Cortisol and Interleukin-6 Responses During Intermittent Exercise in Two Different Hot Environments with Equivalent WBGT" @default.
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• W2093232225 doi "https://doi.org/10.1080/15459624.2012.666467" @default.
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