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Case Reports
. 2005 Oct 5;9(5):R498-501.
doi: 10.1186/cc3771.

Case report: severe heat stroke with multiple organ dysfunction - a novel intravascular treatment approach

Gregor Broessner  1 Ronny BeerGerhard FranzPeter LacknerKlaus EngelhardtChristian BrenneisBettina PfauslerErich Schmutzhard
Affiliations
Case Reports

Case report: severe heat stroke with multiple organ dysfunction - a novel intravascular treatment approach

Gregor Broessner et al. Crit Care. .

Abstract

Introduction: We report the case of a patient who developed a severe post-exertional heat stroke with consecutive multiple organ dysfunction resistant to conventional antipyretic treatment, necessitating the use of a novel endovascular device to combat hyperthermia and maintain normothermia.

Methods: A 38-year-old male suffering from severe heat stroke with predominant signs and symptoms of encephalopathy requiring acute admission to an intensive care unit, was admitted to a ten-bed neurological intensive care unit of a tertiary care hospital. The patient developed consecutive multiple organ dysfunction with rhabdomyolysis, and hepatic and respiratory failure. Temperature elevation was resistant to conventional treatment measures. Aggressive intensive care treatment included forced diuresis and endovascular cooling to combat hyperthermia and maintain normothermia.

Results: Analyses of serum revealed elevation of proinflammatory cytokines (TNF alpha, IL-6), cytokines (IL-2R), anti-inflammatory cytokines (IL-4) and chemokines (IL-8) as well as signs of rhabdomyolysis and hepatic failure. Aggressive intensive care treatment as forced diuresis and endovascular cooling (CoolGard and CoolLine) to combat hyperthermia and maintain normothermia were used successfully to treat this severe heat stroke.

Conclusion: In this case of severe heat stroke, presenting with multiple organ dysfunction and elevation of cytokines and chemokines, which was resistant to conventional cooling therapies, endovascular cooling may have contributed significantly to the reduction of body temperature and, possibly, avoided a fatal result.

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Figures

Figure 1
Figure 1
Course of core body temperature in a patient with heat stroke. The red line denotes the core body temperature while using 'conventional' temperature control methods. The blue line denotes the core body temperature while using an endovascular (CoolGard®) cooling treatment. Blue arrows denote the start of CoolGard® treatment. Red arrows denote attempts to terminate the active cooling procedure.
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