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Core Temperature Responses to Elite Racewalking Competition

Christopher John Stevens, Megan L. Ross, Julien D. Périard, Brent S. Vallance, and Louise M. Burke

investigation were to present a brief summary of the core temperature responses of elite race walkers during competition, as well as the use of cooling strategies, and symptoms of heat illness. Methods Subjects A total of 14 elite/preelite racewalking athletes participated in this study including 9 females (age

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Core Temperature Responses to Cold-Water Immersion Recovery: A Pooled-Data Analysis

Jessica M. Stephens, Ken Sharpe, Christopher Gore, Joanna Miller, Gary J. Slater, Nathan Versey, Jeremiah Peiffer, Rob Duffield, Geoffrey M. Minett, David Crampton, Alan Dunne, Christopher D. Askew, and Shona L. Halson

attributed the enhanced recovery of maximal voluntary contraction force to faster return of central activation, which is the result of larger CWI-induced reductions in core temperature ( T c ). 3 With hyperthermia-mediated fatigue being a key fatiguing factor for many forms of exercise, 1 a greater

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Analysis of Factors Associated With Continued Cooling of Core Temperature After Prolonged Cold-Water Swimming

Joffrey Drigny, Corentin Hingrand, Pauline Moysan, Thibaud Collet, and Benoit Mauvieux

. Water temperature ranged from 12.5 to 13 °C. Table 1 Baseline Characteristics of Participants (N = 14) and Data on Core Temperature Participants (N = 14) Demographic  Age, mean (SD), y 38.29 (10.84)  Gender, n (%)   Men 11 (79%)   Women 3 (21%) Anthropometric  Body mass, mean (SD), kg 85.99 (18

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Thermal Sensation After the 10-km Open-Water Swimming in Cool Water Depends on the Skin’s Thermal Sensitivity Rather Than Core Temperature

Tomomi Fujimoto, Yuiko Matsuura, Yasuhiro Baba, and Reira Hara

maintenance of body temperature is important for safety and performance improvement. Core temperature ( T core ) is determined by the balance between heat production and heat loss, specifically during exercise in water, the former being exercise-related heat production and shivering and so on, 2 and the

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Limiting Rise in Heat Load With an Ice Vest During Elite Female Rugby Sevens Warm-Ups

Mitchell J. Henderson, Bryna C.R. Chrismas, Christopher J. Stevens, Job Fransen, Aaron J. Coutts, and Lee Taylor

 m·s −1 ), maximum speeds of 8.05 (0.55) m·s −1 , maximum accelerations of 3.49 (0.38) m·s −2 , and 12.6 (4.7) impacts greater than 10 g . 11 These demands have been shown to elicit high core temperatures (Tc; 37.9°C–39.8°C), even in temperate conditions (18.9°C–20.1°C wet bulb globe temperature

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Cooling During Endurance Cycling in the Heat: Blunted Core Temperature but Not Inflammatory Responses

Sebastian Keller, Simon Kohne, Hannah L. Notbohm, Wilhelm Bloch, and Moritz Schumann

temperature, humidity, baseline urine specific gravity, and body mass loss were similar in both exercise conditions (Table  1 ). Core Temperature For Tcore, a statistical main effect was observed for time ( P  < .001) and interaction ( P  = .004). Tcore statistically increased in ICE by +5.1% (1.1%) ( P

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Responses to a 5-Day Sport-Specific Heat Acclimatization Camp in Elite Female Rugby Sevens Athletes

Mitchell J. Henderson, Bryna C.R. Chrismas, Job Fransen, Aaron J. Coutts, and Lee Taylor

phenotype. Despite this, early adaptations such as lowered core temperature ( T c ) and exercise heart rate (HRex) can be obtained in as little as a few days. 5 While prolonged HA protocols are understood to be the most effective in achieving the desired outcomes, team sport practitioners seeking heat

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Core Temperature and Sweating in Men and Women During a 15-km Race in Cool Conditions

Coen C.W.G. Bongers, Dominique S.M. ten Haaf, Nicholas Ravanelli, Thijs M.H. Eijsvogels, and Maria T.E. Hopman

/fatness-related factors . J Appl Physiol . 2015 ; 119 ( 9 ): 982 – 989 . doi:10.1152/japplphysiol.00281.2015 26316511 8. Gagnon D , Dorman LE , Jay O , Hardcastle S , Kenny GP . Core temperature differences between males and females during intermittent exercise: physical considerations . Eur J Appl

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Heat Added to Repeated-Sprint Training in Hypoxia Does Not Affect Cycling Performance

Myles C. Dennis, Paul S.R. Goods, Martyn J. Binnie, Olivier Girard, Karen E. Wallman, Brian T. Dawson, and Peter Peeling

30°C to 35°C can increase acute repeated-sprint performance without deleterious heat stress. 10 This effect generally occurs if the core temperature (Tc) is kept below 38.5°C. However, it remains unclear how hypoxic exposure may affect these recommendations. The literature has independently

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Effect of Wetsuit Use on Body Temperature and Swimming Performance During Training in the Pool: Recommendations for Open-Water Swimming Training With Wetsuits

Tomomi Fujimoto, Yuiko Matsuura, Yasuhiro Baba, and Reira Hara

swimming in low T w (≤25 °C), wearing a wetsuit has been reported to have advantages, such as maintaining body temperature and improving propelling proficiency. 5 , 10 – 13 On the other hand, during training in swimming pools ( T w : 26–30 °C) with a wetsuit on, their body core temperature may