TY - JOUR
T1 - Health risks and interventions in exertional heat stress
AU - Leyk, Dieter
AU - Hoitz, Joachim
AU - Becker, Clemens
AU - Glitz, Karl Jochen
AU - Nestler, Kai
AU - Piekarski, Claus
PY - 2019/8/5
Y1 - 2019/8/5
N2 - BACKGROUND: With climate change, heat waves are expected to become more frequent in the near future. Already, on average more than 25 000 "heat deaths" are estimated to occur in Europe every year. However, heat stress and heat illnesses arise not just when ambient temperatures are high. Physical exertion increases heat production within the organism many times over; if not enough heat is lost, there is a risk of exertional heat stress. This review article discusses contributing factors, at-risk groups, and the diagnosis and treatment of heat illnesses., METHODS: A selective literature search was carried out on PubMed. Current guidelines and expert recommendations were also included., RESULTS: Apart from muscular heat production (>70% of converted energy), there are other factors that singly or in combination can give rise to heat stress: clothing, climate/acclimatization, and individual factors. Through its insulating properties, clothing reduces the evaporation of sweat (the most effective physiological cooling mechanism). A sudden heat wave, or changing the climate zone (as with air travel), increases the risk of a heat-related health event. Overweight, low fitness level, acute infections, illness, dehydration, and other factors also reduce heat tolerance. In addition to children, older people are particularly at risk because of their reduced physiological adaptability, (multi-)morbidity, and intake of prescription drugs. A heat illness can progress suddenly to life-threatening heat stroke. Successful treatment depends on rapid diagnosis and cooling the body down as quickly as possible. The aim is to reduce core body temperature to
AB - BACKGROUND: With climate change, heat waves are expected to become more frequent in the near future. Already, on average more than 25 000 "heat deaths" are estimated to occur in Europe every year. However, heat stress and heat illnesses arise not just when ambient temperatures are high. Physical exertion increases heat production within the organism many times over; if not enough heat is lost, there is a risk of exertional heat stress. This review article discusses contributing factors, at-risk groups, and the diagnosis and treatment of heat illnesses., METHODS: A selective literature search was carried out on PubMed. Current guidelines and expert recommendations were also included., RESULTS: Apart from muscular heat production (>70% of converted energy), there are other factors that singly or in combination can give rise to heat stress: clothing, climate/acclimatization, and individual factors. Through its insulating properties, clothing reduces the evaporation of sweat (the most effective physiological cooling mechanism). A sudden heat wave, or changing the climate zone (as with air travel), increases the risk of a heat-related health event. Overweight, low fitness level, acute infections, illness, dehydration, and other factors also reduce heat tolerance. In addition to children, older people are particularly at risk because of their reduced physiological adaptability, (multi-)morbidity, and intake of prescription drugs. A heat illness can progress suddenly to life-threatening heat stroke. Successful treatment depends on rapid diagnosis and cooling the body down as quickly as possible. The aim is to reduce core body temperature to
UR - https://www.mendeley.com/catalogue/219ef9dc-2e71-3e3d-8014-1c5bd98afe6a/
U2 - 10.3238/arztebl.2019.0537
DO - 10.3238/arztebl.2019.0537
M3 - Journal articles
C2 - 31554541
SN - 1866-0452
VL - 116
SP - 537
EP - 544
JO - Deutsches Ärzteblatt international
JF - Deutsches Ärzteblatt international
IS - 31-32
ER -