Further diagnostic evaluation is directed at determining the degree of multisystem organ dysfunction that results from heatstroke. A head computed tomography (CT) scan can evaluate for cerebral edema, whereas a comprehensive metabolic profile (CMP) will screen for electrolyte abnormalities such as hyponatremia (salt loss), hypernatremia (volume depletion), and possible transaminase elevation, which may indicate hepatic injury. Prolonged coagulation studies may reveal DIC and an arterial blood gas (ABG) analysis often may reveal metabolic acidosis. A serum creatine phosphokinase (CPK) and urinalysis (UA) can help to identify rhabdomyolysis or the presence of an acute kidney injury (AKI).16
After their condition is stabilized, children with heatstroke should be monitored in the pediatric intensive care unit (PICU) to effectively address complications of multisystem organ dysfunction.
Case Scenarios Continued
Case 1
[The 10-year-old boy who collapsed during football tryouts.]
The initial evaluation revealed an obese child who was intubated and obtunded. His vital signs included the following: rectal temperature, 104.9°F; heart rate (HR), 149 beats/minute; and BP, 82/36 mm Hg. Heatstroke was diagnosed and rapid cooling measures were initiated.
Evaporative heat loss was maintained with a fan and water spray, and ice packs were placed along the patient’s groin and axillae. Laboratory evaluation included a complete blood count (CBC), CMP, CPK, UA, coagulation panel, and ABG. A normal saline IV bolus at room temperature was given and a postintubation chest X-ray confirmed appropriate position of the endotracheal tube, without any evidence of acute respiratory distress syndrome (ARDS). A head CT scan did not reveal cerebral edema. Since the child’s BP and HR did not improve after the first normal saline bolus, he was given a total of 40 mL/kg of IV normal saline in the ED. The patient’s laboratory results were concerning for an AKI, with elevated CPK, hepatic injury, coagulopathy, and severe metabolic acidosis. He was subsequently admitted to the PICU for further care.
The child’s PICU course was complicated by multisystem organ failure, which ultimately included DIC, ARDS, acute renal failure requiring hemodialysis, and hypotension requiring vasopressors. A repeat head CT scan 3 days after admission revealed marked cerebral edema. The patient subsequently died within a week of presentation.
Case 2
[The 3-month-old girl who was left in a hot vehicle.]
The initial evaluation revealed a fussy infant with dry mucous membranes, elevated HR, and sunken fontanelle. Her rectal temperature on arrival to the ED was 100.7°F after conservative measures were taken (ie, removing her from the hot environment and removing her clothing). A peripheral IV was placed due to her clinical dehydration and she received a 20 mL/kg bolus of normal saline at room temperature. A glucose level was obtained and was normal. The patient’s rectal temperature was monitored every 30 minutes over the next 4 hours, and her temperature and HR gradually normalized.
The patient’s rash appeared consistent with miliaria rubra and improved as her temperature decreased. The infant underwent a brief period of observation in the ED where she continued to look well and tolerated oral fluids without vomiting. Neither a septic work-up nor empiric antibiotics were initiated, since heat exposure was felt to be the likely source of her core temperature elevation. Child Protective Services (CPS) was notified and opened a case for further evaluation of possible child neglect. The patient ultimately returned to her baseline in the ED and was discharged home with a family member, according to the safety plan outlined by CPS, and close follow-up with her pediatrician.