Prehospital Management of Heat-Related Illness in a Changing Climate: A Review of Adaptation Strategies and Vulnerable Populations

Authors

  • Aseel Adnan Mansouri Specialist, Emergency Medical Services, Red Crescent Jeddah. Author
  • Mohammed Khalid Mohammed Alzahrani Technician, Emergency Medical Services, Red Crescent Jeddah, Author
  • Sameer Saeed Maadi Technician, Emergency Medical Services, Red Crescent Jeddah, Author
  • Abdulaziz Mofareh Rakan Al Jafar Technician, Emergency Medical Services, Red Crescent Jeddah, Author
  • Yazeed Abdullah Alqahtani Specialist, Emergency Medical Services, Red Crescent Jeddah. Author
  • Abdulaziz Bhyan Alqarni Technician, Emergency Medical Services, Red Crescent Jeddah, Author
  • Turki Salh Al-Omari Technician, Emergency Medical Services, Red Crescent Jeddah, Author
  • Mohammed Nafaa AlHarbi Technician, Emergency Medical Services, Red Crescent Jeddah, Author
  • Ridha Abed Alsulami Technician, Emergency Medical Services, Red Crescent Jeddah, Author
  • Mohammed Hashim Algharamah Technician, Emergency Medical Services, Red Crescent Jeddah, Author

Keywords:

Heat-Related Illness, Prehospital Care, Emergency Medical Services, Climate Change, Vulnerable Populations.

Abstract

Climate change is driving an increase in the frequency and intensity of extreme heat events, leading to a rising incidence of heat-related illnesses (HRI) and placing significant strain on healthcare systems. The prehospital phase, managed by Emergency Medical Services (EMS), is a critical window for intervention, as rapid cooling is the primary determinant of survival for severe HRI like heat stroke. This scoping review synthesizes evidence on the efficacy of prehospital HRI management, the identification of vulnerable populations, and system-level adaptation strategies. Findings confirm that cold water immersion is the most effective cooling method for exertional heat stroke, while evaporative cooling is the most feasible and widely applicable technique across diverse settings. The burden of HRI disproportionately affects vulnerable groups, including the elderly, outdoor laborers, and socially marginalized populations, due to physiological, environmental, and socioeconomic factors. Effective management requires not only evidence-based clinical protocols but also the integration of EMS with public health heat warning systems, community paramedicine, and proactive, equitable outreach. Significant barriers to implementation include technological limitations, resource constraints, and fragmented inter-agency coordination. Future efforts must focus on standardizing protocols, enhancing training, and addressing research gaps through robust studies on cooling efficacy, cost-effectiveness of community interventions, and the long-term impact of adaptive strategies on patient outcomes.

 

References

1. Alsulami, A. H., Dagha, I. A., Almutairi, S. H., Alanzi, A. A. N., Alghamdi, N. S., Alanzi, B. M., ... & Alsultan, M. S. Recognizing and Treating Heat-related Illnesses: Techniques and Approaches for Emergency Medical Services and Pharmacists. International journal of health sciences, 4(S1), 229-243.

2. Altman, J., Stern, E., Stern, M., Prine, B., Smith, K. B., & Smith, M. S. (2020). Current paradigms in the prehospital care of exertional heat illness: A review. Current Orthopaedic Practice, 31(1), 1-7.

3. Arksey, H., & O'Malley, L. (2005). Scoping studies: towards a methodological framework. International Journal of Social Research Methodology, 8(1), 19-32. https://doi.org/10.1080/1364557032000119616

4. Bassey, P. U., Ngwu, F. A., Shimobi, O. C., Isiaka, A. B., God’swill, C. C., Hosein, C., & Ephraim-Emmanuel, B. C. (2025). Heat-related illnesses: a scoping review of health system strategies, emergency responses and interventions in heat-prone areas. BMC Public Health, 25(1), 2679.

5. Beugin, D., Clark, D., Miller, S., Ness, R., Pelai, R., & Wale, J. (2023). The case for adapting to extreme heat. Costs of the 2021 BC heat wave. Canadian Climate Institute, 88.

6. Bouchama, A., & Knochel, J. P. (2002). Heat stroke. The New England Journal of Medicine, 346(25), 1978-1988. https://doi.org/10.1056/NEJMra011989

7. Bouchama, A., Abuyassin, B., Lehe, C., Laitano, O., Jay, O., O'Connor, F. G., & Leon, L. R. (2022). Classic and exertional heatstroke. Nature Reviews Disease Primers, 8(1), 8. https://doi.org/10.1038/s41572-021-00334-6

8. Bouchama, A., Dehbi, M., & Chaves-Carballo, E. (2007). Cooling and hemodynamic management in heatstroke: Practical recommendations. Critical Care, 11(3), R54. https://doi.org/10.1186/cc5910

9. Cong, S., Zheng, G., Liang, X., Gui, J., Zhang, H., & Wang, J. (2025). Pre-hospital cooling in community-acquired heat stroke (CAHS): evidence, challenges, and strategies. European Journal of Medical Research, 30(1), 472.

10. Dalla Vecchia, C., Sadik, A., & Jonah, L. (2024). Impact of climate change in emergency medicine: A narrative review. Journal of Public Health and Emergency, 8.

11. Epstein, Y., & Yanovich, R. (2019). Heatstroke. New England Journal of Medicine, 380(25), 2449–2459. https://doi.org/10.1056/NEJMra1810762

12. Fatani, O. Z. A., Alshihri, R. A. A., Mousa, N. A., Hawsawi, F. H. B., Aldajani, A. S., Mohammed, H. S., ... & Qadah, M. T. Impact of Climate-Related Disasters on Emergency Medical Services: A Systematic Review of Challenges and Adaptation Strategies.

13. Gaudio, F. G., & Grissom, C. K. (2016). Cooling methods in heat stroke. The Journal of Emergency Medicine, 50(4), 607–616. https://doi.org/10.1016/j.jemermed.2015.09.014

14. Gkouliaveras, V., Kalogiannidis, S., Kalfas, D., & Kontsas, S. (2025). Effects of Climate Change on Health and Health Systems: A Systematic Review of Preparedness, Resilience, and Challenges. International journal of environmental research and public health, 22(2), 232.

15. Hasan, F., Marsia, S., Patel, K., Agrawal, P., & Razzak, J. A. (2021). Effective community-based interventions for the prevention and management of heat-related illnesses: a scoping review. International journal of environmental research and public health, 18(16), 8362.

16. Hess, J. J., Errett, N. A., McGregor, G., Busch Isaksen, T., Wettstein, Z. S., Wheat, S. K., & Ebi, K. L. (2023). Public health preparedness for extreme heat events. Annual Review of Public Health, 44(1), 301-321.

17. Hess, J. J., Sathish, L. M., Knowlton, K., Saha, S., Dutta, P., Ganguly, P., & Tiwari, A. (2018). Building resilience to climate change in the health sector: The case of Ahmedabad, India. International Journal of Environmental Research and Public Health, 15(4), 760. https://doi.org/10.3390/ijerph15040760

18. Hosokawa, Y., Adams, W. M., Belval, L. N., & Casa, D. J. (2020). Heat stroke in the prehospital setting: A review of the literature. Prehospital Emergency Care, 24(5), 674-684. https://doi.org/10.1080/10903127.2019.1699214

19. Hosseinzadeh, A., Aghababaeian, H., Ostadtaghizadeh, A., Hadei, M., Yazdi, F., Asgary, A., ... & Far, A. K. (2025). Pre hospital emergency medical dispatches following heat waves: A systematic review study and meta-analysis. Journal of Thermal Biology, 104086.

20. Huang, C., Barnett, A. G., Wang, X., Vaneckova, P., FitzGerald, G., & Tong, S. (2011). Projecting future heat-related mortality under climate change scenarios: A systematic review. Environmental Health Perspectives, 119(12), 1681-1690. https://doi.org/10.1289/ehp.1103456

21. IPCC. (2021). Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press.

22. IPCC. (2022). Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press.

23. Karstila, H., Ruuhela, R., Rajala, R., & Roivainen, P. (2024). Recognition of climate-related risks for prehospital emergency medical service and emergency department in Finland–A Delphi study. International Emergency Nursing, 73, 101421.

24. King, J. C., Mason, H. M., Peden, A. E., Fitzgerald, G., Nairn, J., Mandalios, N., ... & Franklin, R. C. (2025). Ambulance Attendance in the State of Queensland, Australia: Exploring the Impacts of Heatwaves Using a Retrospective Population-Based Study. Prehospital and Disaster Medicine, 1-9.

25. Lipman, G. S., Gaudio, F. G., Eifling, K. P., Ellis, M. A., Otten, E. M., & Grissom, C. K. (2019). Wilderness Medical Society clinical practice guidelines for the prevention and treatment of heat illness: 2019 update. Wilderness & Environmental Medicine, 30(4S), S33-S46. https://doi.org/10.1016/j.wem.2018.10.004

26. Litwiller, B., & Barnes, A. N. (2022). Risk Factors for Emergency Medical Care or Hospitalization Due to Heat-Related Illness or Injury: A Systematic Review. Florida Public Health Review, 19(1), 12.

27. Luber, G., & McGeehin, M. (2008). Climate change and extreme heat events. American Journal of Preventive Medicine, 35(5), 429-435. https://doi.org/10.1016/j.amepre.2008.08.021

28. Morris, A., & Patel, G. (2021). Heat stroke. In StatPearls. StatPearls Publishing.

29. Nadarajan, G. D., Rao, G. R., Reddy, K., Gimkala, A., Janumpally, R., Ang, Y., ... & Ong, M. E. H. (2021). Characteristics of prehospital heat illness cases during the annual heat wave period in Telangana, India. Prehospital and disaster medicine, 36(4), 385-392.

30. Nielsen, J. L., Jørgensen, R. M., & Larsen, T. S. (2021). Heat-related illness: A review of the literature. Current Sports Medicine Reports, 20(7), 364-371. https://doi.org/10.1249/JSR.0000000000000794

31. O’Connor, F. G. (2025). Heat-Related Illnesses. Annals of Internal Medicine.

32. O’Donnell, E., Honan, B., Quilty, S., & Schultz, R. (2021). The effect of heat events on prehospital and retrieval service utilization in rural and remote areas: a scoping review. Prehospital and disaster medicine, 36(6), 782-787.

33. Oliver, S., & Leaney, S. (2024). Climate Change and Health: The Physiological Society's Key Recommendations for COP29: Improvised Prehospital Methods to Reduce Cold Stress in Humans.

34. Paganini, M. (2024). Heatwaves And Emergency Departments in Italy (HEAT-ED IT): strategies to identify determinants of overload and mitigate impact.

35. Paganini, M., Markou-Pappas, N., Della Corte, F., Rosi, P., Trillò, G., Ferramosca, M., ... & Lamine, H. (2024). Heatwaves impact on prehospital emergency medicine: a qualitative study to improve sustainability and disaster preparedness in Veneto Region, Northern Italy. Sustainability, 16(16), 6911.

36. Patel, L., Conlon, K. C., Sorensen, C., McEachin, S., Nadeau, K., Kakkad, K., & Kizer, K. W. (2022). Climate change and extreme heat events: how health systems should prepare. NEJM Catalyst Innovations in Care Delivery, 3(7), CAT-21.

37. Patel, L., Conlon, K. C., Sorensen, C., McEachin, S., Nadeau, K., Kakkad, K., & Kizer, K. W. (2022). Climate change and extreme heat events: how health systems should prepare. NEJM Catalyst Innovations in Care Delivery, 3(7), CAT-21.

38. Peters, M. D. J., Godfrey, C. M., McInerney, P., Munn, Z., Tricco, A. C., & Khalil, H. (2020). Chapter 11: Scoping Reviews. In E. Aromataris & Z. Munn (Eds.), JBI Manual for Evidence Synthesis. JBI. https://doi.org/10.46658/JBIMES-20-12

39. Pryor, R. R., Roth, R. N., Suyama, J., & Hostler, D. (2015). Exertional heat illness: emerging concepts and advances in prehospital care. Prehospital and disaster medicine, 30(3), 297-305.

40. Ranadive, N., Desai, J., Sathish, L. M., Knowlton, K., Dutta, P., Ganguly, P., ... & Hess, J. J. (2021). Climate change adaptation: prehospital data facilitate the detection of acute heat illness in India. Western Journal of Emergency Medicine, 22(3), 739.

41. Rublee, C., Dresser, C., Giudice, C., Lemery, J., & Sorensen, C. (2021). Evidence-based heatstroke management in the emergency department. Western Journal of Emergency Medicine, 22(2), 186.

42. Savioli, G., Zanza, C., Longhitano, Y., Nardone, A., Varesi, A., Ceresa, I. F., ... & La Russa, R. (2022). Heat-related illness in emergency and critical care: recommendations for recognition and management with medico-legal considerations. Biomedicines, 10(10), 2542.

43. Seong, K., Jiao, J., & Mandalapu, A. (2023). Evaluating the effects of heat vulnerability on heat-related emergency medical service incidents: Lessons from Austin, Texas. Environment and Planning B: Urban Analytics and City Science, 50(3), 776-795.

44. Tait, P. W., Allan, S., & Katelaris, A. L. (2018). Preventing heat-related disease in general practice. Australian journal of general practice, 47(12), 835-840.

45. Theron, E., Bills, C. B., Hynes, E. J. C., Stassen, W., & Rublee, C. (2022). Climate change and emergency care in Africa: A scoping review. African Journal of Emergency Medicine, 12(2), 121-128.

46. Tilahun, W. T., Tirfe, F. W., Yitaferu, M. B., Shiferaw, H. Z., Bzuayehu, H. M., Tesfaye, M. T., ... & Habtu, L. M. (2024). Emergency preparedness for heat illness in Ethiopia: A cross-sectional observational study. Journal of Medical and Clinical Research & Reviews, 8(5), 1-9.

47. Tricco, A. C., Lillie, E., Zarin, W., O'Brien, K. K., Colquhoun, H., Levac, D., ... & Straus, S. E. (2018). PRISMA Extension for Scoping Reviews (PRISMA-ScR): Checklist and Explanation. Annals of Internal Medicine, 169(7), 467–473. https://doi.org/10.7326/M18-0850

48. Vardoulakis, S., Dear, K., Hajat, S., Heaviside, C., Eggen, B., & McMichael, A. J. (2014). Comparative assessment of the effects of climate change on heat- and cold-related mortality in the United Kingdom and Australia. Environmental Health Perspectives, 122(12), 1285-1292. https://doi.org/10.1289/ehp.1307524

49. Vicedo-Cabrera, A. M., Scovronick, N., Sera, F., Royé, D., Schneider, R., Tobias, A., ... & Gasparrini, A. (2021). The burden of heat-related mortality attributable to recent human-induced climate change. Nature Climate Change, 11(6), 492-500. https://doi.org/10.1038/s41558-021-01058-x

50. Wang, X., Lavigne, E., Ouellette-kuntz, H., & Chen, B. E. (2014). Acute impacts of extreme temperature exposure on emergency room admissions related to mental and behavior disorders in Toronto, Canada. Journal of Affective Disorders, 155, 154-161. https://doi.org/10.1016/j.jad.2013.10.042

51. Wondmagegn, B. Y., Xiang, J., Williams, S., Pisaniello, D., & Bi, P. (2019). What do we know about the healthcare costs of extreme heat exposure? A comprehensive literature review. Science of the total environment, 657, 608-618.

52. World Health Organization. (2021). Climate change and health. Retrieved from https://www.who.int/news-room/fact-sheets/detail/climate-change-and-health

53. World Meteorological Organization. (2023). State of the Global Climate 2022. WMO-No. 1316.

54. Yeargin, S., Hirschhorn, R., & Grundstein, A. (2020). Heat-related illnesses transported by United States emergency medical services. Medicina, 56(10), 543.

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Published

2025-09-21

Issue

Vol. 2 No. 9 (2025)

Section

Articles

How to Cite

[1]
Aseel Adnan Mansouri, Trans., “Prehospital Management of Heat-Related Illness in a Changing Climate: A Review of Adaptation Strategies and Vulnerable Populations”, WJAMS, vol. 2, no. 9, pp. 6–14, Sep. 2025, Accessed: Mar. 23, 2026. [Online]. Available: https://wasrpublication.com/index.php/wjams/article/view/60