Abstract: In humans, iron deficiency early in life produces persistent, impaired cognition. Dietary iron replacement does not ameliorate these problems and to date, no attempt to treat these individuals pharmacologically has been reported. The aim of this work was to test the hypothesis that rats made iron deficient in early infancy exhibit cognitive deficits similar to those seen in humans at adolescence. A second aim was to investigate whether the deficit could be treated pharmacologically. Sprague-Dawley rats were made iron deficient (ID) starting at postnatal day 4 by being placed with iron-deficient dams (vs. control). At weaning, all pups were placed on an iron-sufficient diet for the remainder of the study. At 45 days of age, the animals were tested for attention set shifting. After testing, the animals were assigned to one of three methylphenidate (MePh) dose groups, 1, 5 or 10 mg/kg, p.o., vs. vehicle control and treated daily for 15 days prior to a second round of attention set shift testing and continued throughout testing. The results showed that ID rats performed more poorly than controls overall on attentional set-shift testing. MePh improved ID rats' performance and lower doses were more effective than higher doses. This is the first demonstration that MePh can improve cognitive deficits produced by early ID in animals. These findings may open the possibility of pharmacotherapy to treat the persistent cognitive difficulties in children who were severely iron deficient in early infancy.
Abstract: Methylenedioxymethamphetamine (MDMA, ecstasy) is a widely used recreational drug, often associated with dance parties. Users self-report euphoria, a sense of well-being and increased feelings of affiliation. In experimental animals, MDMA produces an acute, rapid release of serotonin and, to a lesser extent, dopamine and norepinephrine in the brain. It can also produce a dose-dependent, life-threatening hyperthermia in rodents, primates and humans. Moreover, there is evidence of long-term neurological and psychological effects in heavy users. In rats, MDMA increases the locomotor activity. When used recreationally, MDMA is often taken with other drugs including amphetamine, cannabis, cocaine or ethanol (EtOH). Epidemiological data suggest that MDMA-EtOH is one of the most common combinations. In rats, EtOH potentiates MDMA-induced hyperactivity but may attenuate its hyperthermic effect, depending on the ambient temperature. The possibility that EtOH may modify the pharmacokinetics and pharmadynamics of MDMA is of concern in terms of liability for misuse abuse. In this short review, we focus on the known interactions between MDMA and EtOH in humans and rodents.
Abstract: 3,4-Methylenedioxymethamphetamine (MDMA, ecstasy) is one of the most widely abused illegal drugs. Some users self-report euphoria and an increased perception and feeling of closeness to others. When taken in warm environments, MDMA users may develop acute complications with potential fatal consequences. In rodents, MDMA increases locomotor activity and, depending on ambient temperature, may produce a dose-dependent, potentially lethal hyperthermia. Like most other recreational drugs, MDMA is frequently taken in combination with other substances including tobacco, EtOH, marijuana, amphetamines, cocaine and, caffeine. Although polydrug use is very common, the understanding of the effects of this multiple substance use, as well as the analysis of consequences of different drug-drug associations, received rather little attention. The purpose of this review is to summarize our current knowledge about the changes on MDMA-related behavior, pharmacology, and neurotoxicity associated with co-consumption of other drugs of abuse and psychoactive agents.
