Introduction:

Today, Dr. Rahul Damania, Dr. Pradip Kamat, and their guest, Dr. Jordan Dent, discuss a critical case involving a 15-year-old male who collapsed during football practice due to exertional heat stroke. The discussion emphasizes the clinical presentation, risk factors, pathophysiology, and evidence-based management of heat stroke and other heat-related illnesses in pediatric patients. The episode also delves into the role of rapid cooling interventions and long-term care to minimize mortality and morbidity.

Case Summary: A 15-year-old male with ADHD collapsed during football practice on a hot, humid day. He presented with:

• Normotension (BP: 101/67 mmHg)
• Tachycardia (HR: 157 bpm)
• Tachypnea (RR: 40 breaths/min)
• Febrile (Rectal temp: 41.8°C/107.2°F)
• Dry, hot skin, GCS of 9
• Lab abnormalities: hyponatremia, hypokalemia, hypoglycemia, elevated creatinine, liver enzymes, lactate, CK, and troponin

Key Discussion Points:

1. Etiology and Pathophysiology of Heat Stroke:

• Heat stroke occurs when the body’s thermoregulatory mechanisms fail, leading to dangerous elevations in core body temperature. Exertional heat stroke is common during strenuous physical activity in hot, humid environments.
• Key physiological breakdowns include inadequate sweating, vasodilation dysfunction, and subsequent cellular damage due to hyperthermia.

1. Risk Factors for Exertional Heat Stroke:

• Environmental factors: High temperature, humidity, lack of hydration, and breaks.
• Athlete-related factors: Hypohidrosis, dehydration, medical conditions, and medications (e.g., Adderall).
• Heat illness is the third leading cause of death in high school athletics, with American football players particularly at risk.

1. Spectrum of Heat-Related Illness:

• Heat Cramps: Involuntary muscle contractions due to dehydration and electrolyte imbalance.
• Heat Syncope: Transient loss of consciousness due to heat exposure.
• Heat Exhaustion: Milder heat illness with core temperature < 104°F, potentially progressing to heat stroke if untreated.
• Heat Stroke: Life-threatening with core temperature ≥ 104°F, CNS dysfunction, and risk of multiorgan failure.

1. Management of Heat Stroke:

• Rapid Cooling: Immediate cooling to bring core temperature down to 39°C within 30 minutes is critical. Methods include ice packs, cold water immersion, and core cooling techniques (cold IV fluids, gastric lavage).
• Supportive Care: Management of shock, electrolyte imbalances, rhabdomyolysis, DIC, and ARDS.
• Monitoring and Long-Term Care: Continuous EEG, fluid management, and rehabilitation are key in managing neurological and systemic complications.

1. Differentiating Heat Stroke from Fever:

• Fever results from a reset of the hypothalamic setpoint due to pyrogens, while heat stroke involves the failure of thermoregulation without a change in the hypothalamic setpoint.

1. Case Outcome:

• The patient initially suffered significant neurological damage but improved with intensive care and rehabilitation. By discharge, the patient showed notable recovery, though with some lasting deficits.

1. Heat stroke is a medical emergency with a high risk of mortality and long-term complications if not treated promptly.
2. Early recognition, rapid cooling, and a multidisciplinary approach are critical to improving outcomes.
3. Athletes and children engaging in strenuous activities in hot environments should be closely monitored for signs of heat-related illness.

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