INTRODUCTION: Recent research has focused on developing air-ventilated garments to improve evaporative cooling in military settings. This study assessed a ventilated vest (Vest) in hot (45 degrees C), dry (10% RH) ambient conditions over 6 h of rest and exercise. It was hypothesized that the Vest would lower the thermal strain and increase the amount of exercise done by subjects. METHODS: Eight healthy heat-acclimated men, wearing combat clothing, body armor, and a 19-kg load in webbing walked on a treadmill at 5 km h(-1) at a 2% incline until rectal temperature (T(rec)) reached 38.5 degrees C. They then rested until T(re) reached 38 degrees C, at which point they recommenced walking. On one occasion the subjects wore a Vest, blowing ambient air around the torso. On the second occasion subjects did not wear the vest (NoVest). Exercise/rest ratio, T(rec), skin temperature (T(sk)), sweat responses, rating of perceived exertion (RPE), and thermal comfort (TC) were measured. RESULTS: Subjects wearing theVest exercised for significantly longer (18%; 11 min/h) as a percentage of total exposure time, stopped exercise significantly less often [Mean (SD); NoVest: 3 (2) stops; Vest: 1 (2) stops], and maintained significantly lower skin temperature under the body armor [T(chest): NoVest 37.55 (0.51) degrees C; Vest: 35.33 (1.00) degrees C; T(back): NoVest: 36.85 (0.83) degrees C; Vest: 35.84 (0.88) degrees C]. The Vest provided 28 W of cooling during exercise and 73 W when at rest as estimated by thermometry. CONCLUSION: A ventilated vest can provide cooling, and thereby reduce thermal strain and increase exercise done in dry environmental temperatures up to 45 degrees C, without causing skin irritation and discomfort.
INTRODUCTION: Recent research has focused on developing air-ventilated garments to improve evaporative cooling in military settings. This study assessed a ventilated vest (Vest) in hot (45 degrees C), dry (10% RH) ambient conditions over 6 h of rest and exercise. It was hypothesized that the Vest would lower the thermal strain and increase the amount of exercise done by subjects. METHODS: Eight healthy heat-acclimated men, wearing combat clothing, body armor, and a 19-kg load in webbing walked on a treadmill at 5 km h(-1) at a 2% incline until rectal temperature (T(rec)) reached 38.5 degrees C. They then rested until T(re) reached 38 degrees C, at which point they recommenced walking. On one occasion the subjects wore a Vest, blowing ambient air around the torso. On the second occasion subjects did not wear the vest (NoVest). Exercise/rest ratio, T(rec), skin temperature (T(sk)), sweat responses, rating of perceived exertion (RPE), and thermal comfort (TC) were measured. RESULTS: Subjects wearing theVest exercised for significantly longer (18%; 11 min/h) as a percentage of total exposure time, stopped exercise significantly less often [Mean (SD); NoVest: 3 (2) stops; Vest: 1 (2) stops], and maintained significantly lower skin temperature under the body armor [T(chest): NoVest 37.55 (0.51) degrees C; Vest: 35.33 (1.00) degrees C; T(back): NoVest: 36.85 (0.83) degrees C; Vest: 35.84 (0.88) degrees C]. The Vest provided 28 W of cooling during exercise and 73 W when at rest as estimated by thermometry. CONCLUSION: A ventilated vest can provide cooling, and thereby reduce thermal strain and increase exercise done in dry environmental temperatures up to 45 degrees C, without causing skin irritation and discomfort.
Authors: Pedro M R Reis; Felix Hebenstreit; Florian Gabsteiger; Vinzenz von Tscharner; Matthias Lochmann Journal: Front Hum Neurosci Date: 2014-03-24 Impact factor: 3.169
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