The recreational drug ecstasy, also known as “XTC” or“E,” Adam, Clarity, or Essence, is widely used by young people throughout the United States and Western Europe. The drug is an amphetamine derivative, with the pharmacologic name 3,4-methylenedioxymeth-amphetamine(MDMA). Its popularity has been enhanced by its close association with particular forms of music and dance venues and, despite well-publicized casesof MDMA-associated death, by the widely held belief that it is a“safe” drug. Indeed, many users and social commentators believe that with better management, the negative consequences of MDMA use can be avoided. 1 This belief is based on the false premise that the danger associated with MDMA lies exclusively with poor control of environmental temperature and“bad” or adulterated drug. The latter risk, it is believed, would be eliminated by better quality control as a result of legalizing the drug. A review of the scientific literature, however, paints a very different picture of this drug, which is far from benign.

Despite the loss of a high proportion of 5-hydroxytryptamine (5-HT)terminals throughout the forebrain in animals, functional imaging reveals that the short- to medium-term effects of repeated MDMA treatment are largely limited to alterations in subfields of the hippocampalformation 8 where changes in glucocorticoid and 5-HT receptor expression are also evident. 9 , 10 These same changes in the hippocampus are thought to underlie a range honoured, affective, and cognitive dysfunctions associated with clinical depression and normal aging. Although initially it proved difficult to find any cognitive sequelae that correlated with these changes, 11 recent animal studies have shown subtle, but lasting, deficits in cognitive behaviorsthat do correlate with the levels of damage to 5-HT systems in the hippocampus. 12

The evidence that MDMA is toxic to central serotonergic nerve terminals wasderived from experiments in several different species, including rats 2 and a variety of subhuman primates. 3 , 4 The latter group appears to be up to 4 times more susceptible to MDMA than are rodents. Although initially it was thought that toxicity required multiple exposure to relatively high doses of MDMA, subsequent studies have shown that a single exposure to a high dose, or several exposures to lower doses, can induce the same profile of toxicity. 5 Morerecently, studies in rats showed that even a single exposure can result in some manifestations of neuronal damage 6 ; in primates, both the doses and treatment regimens that produce neurotoxic effects overlap with those doses that some humans received when using ecstacy recreationally. 7

Numerous animal studies have yielded clear evidence of potent neurotoxic effects of MDMA that are specific to central serotonergic (5-HT)systems. 2 Given the important role that 5-HT plays in regulating emotion, memory, sleep, pain, and higher order cognitive processes, it is possible that MDMA might cause avariety of behavioral and cognitive deficiencies, as well as impairing memory.Although the applicability of these results to the human condition has been vigorously contested, clinical observations are sufficient to raise legitimate concern over the negative consequences of exposure to MDMA in humans.

HUMAN STUDIES

Evidence of neurotoxicity Evidence from human studies has accumulated more slowly, but it is becoming apparent that the toxic effect of MDMA on central serotonergic systems found previously in animal studies has a clear parallel in human users of the drug.There is now direct evidence of a lasting decrease in 5-HT uptake sites (a marker for the integrity of 5-HT nerve terminals) in human volunteers with a past history of MDMAabuse.13 Moreover, this decrease correlates positively with the extent of their self-reported previous exposure to the drug, and is in keeping with decreases in more general biochemical markers for central serotonergic activity reported elsewhere.14Positron emission tomographic (PET) imaging has revealed that the consequences of MDMA toxicity may be even more widespread than predicted from animal experiments. In addition to the hippocampal formation, both the amygdala andareas of neocortex may be affected byMDMA.15

Cognitive changes in ecstasy users The manifestations of this neurotoxicity, in terms of altered cerebral function and behavioral change, range from neuroendocrine impairments16 to deficits in verbal memory and reasoning,17short-term memory and semantic recognition,14 and visual memory.18More general indices of intelligence are also adversely affected,19 but reports of serious long-term psychiatric disorders are still rare, with the possibility that previous exposure to MDMA merely accentuates preexisting negative personality features.20 One particularly worrying feature that has emerged is that chronic psychosis, when manifest in MDMA users, reportedly responds poorly to therapy.21 The effects of MDMA on cognitive performance arising directly from drug—induced neurotoxicity may be compounded by indirect effects on the cerebral circulation. As well as providing extensive innervation of forebrainneuronal systems, there is also evidence that cerebral blood vessels are innervated by the same serotonergic neurons arising from themesencephalon.22 It should not be surprising then that both acute and chronic treatments with MDMAproduce cerebrovascular effects. In rats, the acute effect of MDMA is to produce pronounced focal cerebrovascularhyperemia,23 which, in anatomic distribution, is directly parallel to the occurrence ofMDMA-associated hemorrhagic stroke in humans.24 In contrast, the chronic cerebrovascular effects of MDMA are more subtle under normal physiologic conditions and require the superimposition of physiologic stress before becoming fully apparent.25 It is now evident that MDMA abuse is an important risk factor for cerebrovascular accidents in young people. If these vascular accidents are neurologically silent, however, they may only become apparent at a later date. This effect may parallel the type of cognitive decline seen in patients with multi-infarctdementia.