Role of the inferior colliculus in the inhibition of acoustic startle in the rat.

Fifteen rats were tested for amplitude reduction of the acoustic startle response using auditory and visual prestimuli. Eight subjects then received large lesions of the inferior colliculus, and the remaining subjects served as normal controls. All animals were reassessed on a post-test identical to the pre-test. In addition, all subjects were tested for latency reduction of startle using auditory prestimuli. There were no significant differences between groups on the pre-test for startle amplitude, visual amplitude reduction, or auditory amplitude reduction, nor did the control group differ significantly on these measures from pre-test to post-test. After surgery, the lesion group displayed a large, significant increase in startle amplitude. Auditory prestimuli were no longer effective in reducing startle amplitude in this group, but visual prestimuli still produced reliable amplitude reduction. Both groups displayed reliable latency reduction to auditory prestimuli; the groups were not significantly different from each other on this measure. These data support the proposition that the inferior colliculus is part of a neural circuit for startle amplitude reduction by auditory prestimuli.