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Show detailsContinuing Education Activity
Hyperthermia is defined as a body temperature greater than 40 degrees C. Several conditions can cause hyperthermia. In sepsis, the immunologic reaction to the infection most often manifests as a fever. Some toxic ingestions and withdrawal states can cause elevated body temperature. Certain medications can cause a hyperthermic response, such as in neuroleptic malignant syndrome. The most common disease that treatable by cooling alone is heat-related illness and heat stroke. This activity illustrates the pathophysiology of hyperthermia and highlights the role of the interprofessional team in the management of these patients.
Objectives:
- Identify the causes of hyperthermia.
- Describe ways to lower body temperature.
- Summarize the presentation of a patient with hyperthermia.
- Explain interprofessional team strategies for enhancing care coordination and communication to advance the treatment of hyperthermia and improve outcomes.
Introduction
Hyperthermia is defined as a body temperature greater than 40 degrees C. Several conditions can cause hyperthermia. In sepsis, the immunologic reaction to the infection most often manifests as a fever. Some toxic ingestions and withdrawal states can cause elevated body temperature. Certain medications can cause a hyperthermic response, such as in neuroleptic malignant syndrome. The most common disease that can be treated by cooling alone is heat-related illness and heat stroke.
Heat-related illness is a spectrum of disease that occurs when the body's thermoregulatory system does not work properly. Heat exhaustion is characterized by elevated core body temperature associated with orthostatic hypotension, tachycardia, diaphoresis, and tachypnea. Heat stroke is defined as elevated core body temperature plus central nervous system involvement (delirium, decreased the level of consciousness, or ataxia). Heat-related illness most often affects athletes (exertional hyperthermia), but can also occur during the warm weather months or in locations with extreme temperatures. Patients with impaired thermoregulation (those at extremes of age, the obese or mentally ill) are at higher risk. The definitive treatment for heat-related illness is total body cooling.
Conduction and evaporation are the two modes of cooling employed in the treatment of heat-related illness. Studies have shown ice water immersion to be the most effective and most rapid. However, there are obvious barriers to performing this in an emergency department. Marathons and other athletic events that have frequent heat-related illness sometimes have this capability. Evaporation (mist and fan) is the second most rapid way to cool a patient. Ice packs to the groin, axilla, neck, and areas near other great vessels have been shown to be less effective. Cooled intravenous fluids have been studied, but there is no clear consensus regarding their benefit (preservation of neurologic function) versus potential harm (induced shivering), but they may be considered. This article will discuss the procedure for performing evaporative cooling with other adjuncts in the field.
The priority in heat-related illness is early recognition and intervention. Military and sports literature has identified 40 degrees C as the target, and the faster the target is achieved, the lower the patient mortality.[1]
Indications
Indications for cooling include any signs of heat-related illness in the presence of elevated body temperature. Previously, heat-related illness has been defined as core body temperature greater than 40 degrees C. However, any elevation above normal body temperature in a symptomatic patient is an indication to consider cooling. The objective is to rapidly decrease the temperature below 40 degrees C, with the final goal of reaching the normal range (36 degrees C to 38 degrees C). It is important to note the patient's other vital signs, as hemodynamic instability indicates severe heat stroke, in which case, rapid cooling is the most crucial intervention to stabilize the patient.[2]
Contraindications
The only absolute contraindication to cooling is normal or low body temperature. Hyperthermia in a patient may be a sign of sepsis, toxic ingestion, or withdrawal, or another etiology, in which case disease-specific treatment should not be overlooked. Care should be taken to prioritize the usual resuscitation and emergent management of airway, breathing, and circulation.
Equipment
Several cooling methods utilize standard equipment, such as:
- Cold saline
- Ice packs
- Sheets/towels
Additional equipment that may be useful includes:
- Cooling blankets
- Spray bottle
- Fan
- A pool, such as an inflatable children's pool
Personnel
All of the cooling techniques described in this article can be performed by a single provider. However, additional personnel will allow for faster cooling utilizing parallel interventions.
Preparation
Make sure to take the patient's vital signs and ensure no immediate airway compromise prior to cooling. The patient should be completely exposed, and intravenous (IV) access obtained.
Technique or Treatment
Continuous application of cold water to the skin can be achieved by either sponging the patient or using a spray bottle. Placing a fan to blow directly on the patient, while also spraying or sponging the patient, will increase the rate of evaporation, and thereby more rapidly decrease body temperature. Another option is to submerge a sheet in cold water and then wring it out and wrap the patient in the damp sheet. This sheet can be changed and re-submerged when it is no longer cool. The downside of these methods is that they require continuous reapplication of the water and ice to maintain efficacy. [2]
Another option is to apply ice packs to the patient. The areas that are most effective in cooling core temperature are the groin, axillae, neck, and torso. Cold saline can be infused with care to monitor for resultant shivering. More frequent ice pack changes and reapplication of cold water will allow for more rapid cooling.[3]
If a pool is available, then ice water immersion should be performed. Fill the pool with water and ice. Place the patient in the pool, taking care to submerge the torso to the groin and axillae preferentially to the extremities. Frequently recheck the patient's vital signs and monitor mental status. When the temperature is below 40 degrees C, removed the patient from the pool.[4]
Complications
Overall, cooling is a benign intervention that has few complications. The patient's vital signs must be monitored closely during the cooling process. As mentioned, patients should be monitored for shivering, which will hinder cooling efforts. Critically ill patients may further decompensate during cooling. Additionally, if a patient's body temperature drops below normal (36 degrees C), they will be at risk for the sequelae of hypothermia. An important organ to monitor during the cooling process is the skin. It is susceptible to damage from prolonged exposure to ice. Covering ice packs with a towel or sheet and regularly adjusting the site of application will mitigate this risk.[5]
If the patient was submerged in ice water, make sure to continue to monitor for hypothermia, and wrap the patient in blankets so as not to leave them exposed.[6][7][8]
Clinical Significance
In managing heat-related illness and heat stroke, decreasing core body temperature is the most critical intervention. The techniques described are easy, simple, and effective ways of cooling a patient in the field. They require little training and can be performed by an individual provider. Additionally, they are applicable in many environments. Rapidly identifying patients who would benefit from this intervention is the key to effective management.
Enhancing Healthcare Team Outcomes
EMS will frequently encounter patients with hyperthermia. While cooling the patient can take place via various methods, it is vital to transport the patient to the ED ASAP. The management of hyperthermia is best done under controlled settings by an interprofessional team approach, including nurse practitioner, emergency department physician, internist, and specialty-trained nursing staff, all working collaboratively to achieve optimal patient outcomes. [Level V] If there is a delay in transport, hyperthermia can induce seizures that tend to affect outcomes adversely.
References
- 1.
- Tan PM, Teo EY, Ali NB, Ang BC, Iskandar I, Law LY, Lee JK. Evaluation of Various Cooling Systems After Exercise-Induced Hyperthermia. J Athl Train. 2017 Feb;52(2):108-116. [PMC free article: PMC5343523] [PubMed: 28156130]
- 2.
- O'Connor JP. Simple and effective method to lower body core temperatures of hyperthermic patients. Am J Emerg Med. 2017 Jun;35(6):881-884. [PubMed: 28162872]
- 3.
- Lissoway JB, Lipman GS, Grahn DA, Cao VH, Shaheen M, Phan S, Weiss EA, Heller HC. Novel application of chemical cold packs for treatment of exercise-induced hyperthermia: a randomized controlled trial. Wilderness Environ Med. 2015 Jun;26(2):173-9. [PubMed: 25771030]
- 4.
- Nye EA, Edler JR, Eberman LE, Games KE. Optimizing Cold-Water Immersion for Exercise-Induced Hyperthermia: An Evidence-Based Paper. J Athl Train. 2016 Jun 02;51(6):500-1. [PMC free article: PMC5076277] [PubMed: 27441949]
- 5.
- Butts CL, Spisla DL, Adams JD, Smith CR, Paulsen KM, Caldwell AR, Ganio MS, McDermott BP. Effectiveness of Ice-Sheet Cooling Following Exertional Hyperthermia. Mil Med. 2017 Sep;182(9):e1951-e1957. [PubMed: 28885961]
- 6.
- Gauer R, Meyers BK. Heat-Related Illnesses. Am Fam Physician. 2019 Apr 15;99(8):482-489. [PubMed: 30990296]
- 7.
- Bonifacio SL, McDonald SA, Chock VY, Wusthoff CJ, Hintz SR, Laptook AR, Shankara S, Van Meurs KP. Differences in patient characteristics and care practices between two trials of therapeutic hypothermia. Pediatr Res. 2019 Jun;85(7):1008-1015. [PMC free article: PMC6857796] [PubMed: 30862961]
- 8.
- Young PJ, Bellomo R, Bernard GR, Niven DJ, Schortgen F, Saxena M, Beasley R, Weatherall M. Fever control in critically ill adults. An individual patient data meta-analysis of randomised controlled trials. Intensive Care Med. 2019 Apr;45(4):468-476. [PubMed: 30741326]
Disclosure: Deena Wasserman declares no relevant financial relationships with ineligible companies.
Disclosure: Jeff Thurman declares no relevant financial relationships with ineligible companies.
Disclosure: Megan Healy declares no relevant financial relationships with ineligible companies.
- Cooling Techniques for Hyperthermia.[StatPearls. 2024]Cooling Techniques for Hyperthermia.Wasserman DD, Creech JA, Healy M. StatPearls. 2024 Jan
- Review First aid cooling techniques for heat stroke and exertional hyperthermia: A systematic review and meta-analysis.[Resuscitation. 2020]Review First aid cooling techniques for heat stroke and exertional hyperthermia: A systematic review and meta-analysis.Douma MJ, Aves T, Allan KS, Bendall JC, Berry DC, Chang WT, Epstein J, Hood N, Singletary EM, Zideman D, et al. Resuscitation. 2020 Mar 1; 148:173-190. Epub 2020 Jan 22.
- Review Thermoregulatory disorders and illness related to heat and cold stress.[Auton Neurosci. 2016]Review Thermoregulatory disorders and illness related to heat and cold stress.Cheshire WP Jr. Auton Neurosci. 2016 Apr; 196:91-104. Epub 2016 Jan 6.
- Review Cooling Methods in Heat Stroke.[J Emerg Med. 2016]Review Cooling Methods in Heat Stroke.Gaudio FG, Grissom CK. J Emerg Med. 2016 Apr; 50(4):607-16. Epub 2015 Oct 31.
- The Effectiveness of a Standardized Ice-Sheet Cooling Method Following Exertional Hyperthermia.[Mil Med. 2022]The Effectiveness of a Standardized Ice-Sheet Cooling Method Following Exertional Hyperthermia.Caldwell AR, Saillant MM, Pitsas D, Johnson A, Bradbury KE, Charkoudian N. Mil Med. 2022 Aug 25; 187(9-10):e1017-e1023.
- EMS Methods to Cool a Patient in the Field - StatPearlsEMS Methods to Cool a Patient in the Field - StatPearls
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