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Eugene A. Kiyatkin

National Institutes of Health

2 papers in the library · 152 citations · publishing 2004-2014

Papers

Brain hyperthermia induced by MDMA (‘ecstasy’): modulation by environmental conditions

European Journal of Neuroscience July 1, 2004 Paul Brown, Eugene A. Kiyatkin 105 citations

MDMA (ecstasy) causes a moderate, prolonged increase in brain and muscle temperature in rats under quiet resting conditions. When rats interact socially with a female or have chronically occluded jugular veins, the drug-induced brain hyperthermia is dramatically amplified (89% and 188% greater, respectively). At a warm environmental temperature of 29 °C, MDMA pushes brain temperature above 41 °C, leading to fatalities in 83% of tested animals. The findings suggest that metabolic brain activation combined with impaired heat dissipation makes MDMA use under 'party' conditions far more dangerous than standard laboratory settings.

Critical Role of Peripheral Vasoconstriction in Fatal Brain Hyperthermia Induced by MDMA (Ecstasy) under Conditions That Mimic Human Drug Use

Journal of Neuroscience June 4, 2014 Eugene A. Kiyatkin, A. H. Kim, Ken T. Wakabayashi et al. 47 citations

MDMA (Ecstasy) can cause fatal brain hyperthermia when taken in hot, crowded environments, even at moderate doses that are harmless under cool, quiet conditions. In male rats, MDMA at 9 mg/kg (about one-fifth of the lethal dose) produced only weak brain temperature increases under standard lab conditions (quiet rest, 22–23°C). However, social interaction with another male rat and a warm environment (29°C) dramatically amplified brain hyperthermia. The key mechanism is peripheral vasoconstriction, which prevents heat dissipation through the skin. This shows that doses of MDMA that are nontoxic in cool, quiet settings become highly dangerous under conditions mimicking recreational use at rave parties or other hot, crowded venues.