Heat Illness: Heat Exhaustion and Heat Stroke

Heat Illness: Heat Exhaustion and Heat Stroke is a topic covered in the 5-Minute Clinical Consult.

To view the entire topic, please or .

5-Minute Clinical Consult (5MCC) app and website powered by Unbound Medicine helps you diagnose and manage 900+ medical conditions. Exclusive bonus features include Diagnosaurus DDx, 200 pediatrics topics, and medical news feeds. Explore these free sample topics:

-- The first section of this topic is shown below --

Basics

Description

  • A continuum of increasingly severe illness caused by dehydration, electrolyte losses, and failure of thermoregulatory mechanisms when exposed to elevated environmental temperatures
    • Heat exhaustion is a mild to moderate form of heat illness displaying dehydration-type symptoms with a normal to elevated temperature <104°F (<40°C) (1).
    • Heat stroke is characterized by an elevated core temperature >104°F (>40°C) with central nervous system (CNS) abnormalities and is a true medical emergency (1,2).
  • Can be exertional (related to activity) or nonexertional
  • System(s) affected: endocrine/metabolic, nervous, hepatic, hematologic
  • Synonym(s): heat illness; heat injury; hyperthermia; heat collapse; heat prostration

Geriatric Considerations
Elderly persons are more susceptible.

Pediatric Considerations
Children are more susceptible.

Pregnancy Considerations
Pregnant women may be more susceptible to volume depletion with heat stress.

Epidemiology

  • Predominant age: more likely in children or elderly
  • Predominant sex: male = female

Incidence
  • Depends on intensity of heat; estimate of 20/100,000 persons per season
  • Concern for increasing incidence because ambient environmental temperatures continue to rise
Prevalence
  • Depends on predisposing conditions in combination with environmental factors
  • Roughly 600 deaths per year in the United States

Etiology and Pathophysiology

  • Excess heat has direct cellular toxicity. Excess heat also leads to an imbalance between inflammatory and anti-inflammatory cytokines, vascular endothelial damage, and end-organ dysfunction.
  • Interplay between failure of heat-dissipating mechanisms, an overwhelming heat stress, and an exaggerated acute-phase inflammatory response

Risk Factors

  • Poor acclimatization to heat
  • Poor physical conditioning
  • Salt or water depletion
  • Obesity
  • Acute febrile or gastrointestinal illnesses
  • Chronic illnesses: uncontrolled diabetes mellitus, hypertension, cardiac disease
  • Alcohol and other substance abuse
  • High heat and humidity, poor environmental air circulation
  • Heavy, restrictive clothing
  • Nutritional supplements (e.g., ephedra) (2)
  • Medications (α-adrenergics, anticholinergics, antihistamines, antipsychotics, benzodiazepines, β-blockers, calcium channel blockers, clopidogrel, diuretics, laxatives, neuroleptics, phenothiazines, thyroid agonists, tricyclic antidepressants) (1)

General Prevention

  • The most important factor in preventing heat illness is prevention. Activity modification and adequate fluid replacement are key preventive measures.
  • Allow acclimatization through proper conditioning and activity modification.
  • Dress appropriately with loose-fitting, open-weaved, light-colored clothing.
  • Consume a proper volume of fluids, particularly during physical activity in hot environments.
  • Never leave children (or pets) unattended in cars during hot weather.
  • Try to gain access to air-conditioned environments during hot weather.

-- To view the remaining sections of this topic, please or --

Basics

Description

  • A continuum of increasingly severe illness caused by dehydration, electrolyte losses, and failure of thermoregulatory mechanisms when exposed to elevated environmental temperatures
    • Heat exhaustion is a mild to moderate form of heat illness displaying dehydration-type symptoms with a normal to elevated temperature <104°F (<40°C) (1).
    • Heat stroke is characterized by an elevated core temperature >104°F (>40°C) with central nervous system (CNS) abnormalities and is a true medical emergency (1,2).
  • Can be exertional (related to activity) or nonexertional
  • System(s) affected: endocrine/metabolic, nervous, hepatic, hematologic
  • Synonym(s): heat illness; heat injury; hyperthermia; heat collapse; heat prostration

Geriatric Considerations
Elderly persons are more susceptible.

Pediatric Considerations
Children are more susceptible.

Pregnancy Considerations
Pregnant women may be more susceptible to volume depletion with heat stress.

Epidemiology

  • Predominant age: more likely in children or elderly
  • Predominant sex: male = female

Incidence
  • Depends on intensity of heat; estimate of 20/100,000 persons per season
  • Concern for increasing incidence because ambient environmental temperatures continue to rise
Prevalence
  • Depends on predisposing conditions in combination with environmental factors
  • Roughly 600 deaths per year in the United States

Etiology and Pathophysiology

  • Excess heat has direct cellular toxicity. Excess heat also leads to an imbalance between inflammatory and anti-inflammatory cytokines, vascular endothelial damage, and end-organ dysfunction.
  • Interplay between failure of heat-dissipating mechanisms, an overwhelming heat stress, and an exaggerated acute-phase inflammatory response

Risk Factors

  • Poor acclimatization to heat
  • Poor physical conditioning
  • Salt or water depletion
  • Obesity
  • Acute febrile or gastrointestinal illnesses
  • Chronic illnesses: uncontrolled diabetes mellitus, hypertension, cardiac disease
  • Alcohol and other substance abuse
  • High heat and humidity, poor environmental air circulation
  • Heavy, restrictive clothing
  • Nutritional supplements (e.g., ephedra) (2)
  • Medications (α-adrenergics, anticholinergics, antihistamines, antipsychotics, benzodiazepines, β-blockers, calcium channel blockers, clopidogrel, diuretics, laxatives, neuroleptics, phenothiazines, thyroid agonists, tricyclic antidepressants) (1)

General Prevention

  • The most important factor in preventing heat illness is prevention. Activity modification and adequate fluid replacement are key preventive measures.
  • Allow acclimatization through proper conditioning and activity modification.
  • Dress appropriately with loose-fitting, open-weaved, light-colored clothing.
  • Consume a proper volume of fluids, particularly during physical activity in hot environments.
  • Never leave children (or pets) unattended in cars during hot weather.
  • Try to gain access to air-conditioned environments during hot weather.

There's more to see -- the rest of this entry is available only to subscribers.