AbstractRats exposed to microwaves prenatally (2,450 MHz, 10 mW/cm2, 3 h/day, days 5–20 of gestation) or perinatally (same as above plus days 2–20 postnatally) were examined by a neurobehavioral test battery on postnatal days 30 and 100. Body mass, locomotor activity, startle to acoustic and air‐puff stimuli, fore‐ and hindlimb grip strength, negative geotaxis, reaction to thermal stimulation, and swimming endurance were assessed. The prenatally and the perinatally exposed rats (male and female) weighed more than sham‐exposed rats at 30, but not at 100, days of age. In addition, the perinatally exposed animals had less swimming endurance at 30, but not at 100, days of age relative to sham‐exposed rats. For the other measures, only the air‐puff startle response was altered and was limited to the prenatally exposed female pups; ie, at postnatal day 30, the startle response was increased in magnitude, and at postnatal day 100, the response was decreased. No other reliable effects were observed. In a second experiment, rats treated as described above were examined for alterations in body mass, locomotor activity, reaction to air‐puff stimuli, reaction to thermal stimulation, and swimming endurance at postnatal days 30–36. Again, perinatally exposed rats were larger in body mass and had less swimming endurance compared with sham‐exposed rats. The latency to the air‐puff startle response was longer in female pups exposed prenatally. These data indicate that altered endurance and gross motor activity result from perinatal exposure to