Postnatal lead exposure affects motor skills and exploratory behavior in rats.

The present study was undertaken to investigate the behavioral effects of postnatal lead exposure. Newborn male Sprague-Dawley rats were given 1 or 8 mg/kg lead acetate intraperitoneally daily for 20 days. Control rats received 1 mg/kg sodium acetate, or 8 mg/kg sodium acetate in oversized litters. The high dose lead acetate group and the high dose, oversized sodium acetate group showed impaired weight and length increment during the end of the treatment. Rats treated with the higher dose of lead showed delayed eye opening. The time required to turn in a negative geotaxis test was transiently longer in rats treated with the higher dose of lead. A tendency of reduced forepaw grasping ability was seen in lead-treated rats during the end of the lead exposure. Ambulation and rearing in an open field were lower for the rats treated with the higher dose of lead acetate during certain periods of development. Impaired performance in a balancing rod test was also seen in the rats treated with the higher dose of lead at the adult stage, while no difference was seen in ambulation or gnawing activity during tail pinch-induced stress. Thus, lead intoxication in rats during the early postnatal period, with doses that approximate those in children, induced transient as well as persistent dysfunctions in exploratory behavior and motor skills. These observed actions of lead may be related to impaired maturation of sensitive brain regions which develop postnatally.