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Developmental Psychobiology

ISSN 0012-1630

3 papers in the library · 78 citations · publishing 1984-2014

Papers

Repeated MDMA (“Ecstasy”) exposure in adolescent male rats alters temperature regulation, spontaneous motor activity, attention, and serotonin transporter binding

Developmental Psychobiology January 1, 2005 Brian J. Piper, Joseph B. Fraiman, Jerrold S. Meyer 71 citations

Repeated exposure to a moderate dose of MDMA during adolescence in male rats caused acute effects such as hypothermia, serotonin syndrome behavior, and ejaculation, and slowed body weight gain. Later, after the drug was stopped, the animals showed altered habituation to an open field, increased activity in an elevated plus maze, reduced attention in a novel object recognition test, and decreased serotonin transporter binding in the neocortex. These results indicate that even a moderate MDMA regimen during adolescence can produce lasting behavioral and neurochemical changes.

Ontogeny of the behavioral effects of lysergic acid diethylamide in cats

Developmental Psychobiology July 1, 1984 Michael E. Trulson, Gailyn A. Howell 5 citations

In cats, the behavioral effects of LSD emerge around 21 days of age and reach adult levels by 35–40 days postpartum. Behaviors such as limb-flicking, abortive grooming, head-shakes, and investigatory responses appear at low frequency before 14 days, then increase rapidly. After an acute injection, effects last about 8 hours from their first appearance. Young kittens (21–42 days old) are resistant to developing tolerance with repeated doses. LSD can elicit behaviors like head-shakes and grooming earlier than they normally appear spontaneously, suggesting the neural and muscular systems for these behaviors develop before natural use.

Adolescent MDMA exposure diminishes the physiological and neurotoxic consequences of an MDMA binge in female rats

Developmental Psychobiology July 1, 2014 Brian J. Piper, Christina S. Henderson, Jerrold S. Meyer 2 citations

In female rats, prior intermittent exposure to MDMA (ecstasy) prevented the drop in serotonin transporter binding and the body temperature disruption normally caused by a later high-dose MDMA binge. Unlike males, female rats did not show reduced motor activity after the binge. The findings indicate that while females and males respond differently to an MDMA binge, both sexes exhibit a preconditioning effect from earlier MDMA exposure that protects against some of the binge's harmful effects.