Literature DB >> 35115565

Classic and exertional heatstroke.

Abderrezak Bouchama1, Bisher Abuyassin2, Cynthia Lehe2, Orlando Laitano3, Ollie Jay4, Francis G O'Connor5, Lisa R Leon6.   

Abstract

In the past two decades, record-breaking heatwaves have caused an increasing number of heat-related deaths, including heatstroke, globally. Heatstroke is a heat illness characterized by the rapid rise of core body temperature above 40 °C and central nervous system dysfunction. It is categorized as classic when it results from passive exposure to extreme environmental heat and as exertional when it develops during strenuous exercise. Classic heatstroke occurs in epidemic form and contributes to 9-37% of heat-related fatalities during heatwaves. Exertional heatstroke sporadically affects predominantly young and healthy individuals. Under intensive care, mortality reaches 26.5% and 63.2% in exertional and classic heatstroke, respectively. Pathological studies disclose endothelial cell injury, inflammation, widespread thrombosis and bleeding in most organs. Survivors of heatstroke may experience long-term neurological and cardiovascular complications with a persistent risk of death. No specific therapy other than rapid cooling is available. Physiological and morphological factors contribute to the susceptibility to heatstroke. Future research should identify genetic factors that further describe individual heat illness risk and form the basis of precision-based public health response. Prioritizing research towards fundamental mechanism and diagnostic biomarker discovery is crucial for the design of specific management approaches.
© 2022. Springer Nature Limited.

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Year:  2022        PMID: 35115565     DOI: 10.1038/s41572-021-00334-6

Source DB:  PubMed          Journal:  Nat Rev Dis Primers        ISSN: 2056-676X            Impact factor:   52.329


  261 in total

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Journal:  Nat Clim Chang       Date:  2021-05-31
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  7 in total

Review 1.  Biomarkers of heatstroke-induced organ injury and repair.

Authors:  Zachary J Schlader; Michael S Davis; Abderrezak Bouchama
Journal:  Exp Physiol       Date:  2022-06-14       Impact factor: 2.858

Review 2.  Human temperature regulation under heat stress in health, disease, and injury.

Authors:  Matthew N Cramer; Daniel Gagnon; Orlando Laitano; Craig G Crandall
Journal:  Physiol Rev       Date:  2022-06-09       Impact factor: 46.500

Review 3.  Epigenetic responses to heat: From adaptation to maladaptation.

Authors:  Kevin O Murray; Thomas L Clanton; Michal Horowitz
Journal:  Exp Physiol       Date:  2022-05-05       Impact factor: 2.858

4.  A Heart Rate Based Algorithm to Estimate Core Temperature Responses in Elite Athletes Exercising in the Heat.

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Journal:  Front Sports Act Living       Date:  2022-06-22

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Authors:  Toshiaki Iba; Tomohiro Sawada; Yutaka Kondo; Kenta Kondo; Jerrold H Levy
Journal:  J Clin Med       Date:  2022-08-17       Impact factor: 4.964

Review 6.  The life and death of RNA across temperatures.

Authors:  Attila Becskei; Sayanur Rahaman
Journal:  Comput Struct Biotechnol J       Date:  2022-08-08       Impact factor: 6.155

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Authors:  Christian K Garcia; Gerard P Robinson; Bryce J Gambino; Michael T Rua; Orlando Laitano; Thomas L Clanton
Journal:  PLoS One       Date:  2022-10-13       Impact factor: 3.752
  7 in total

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