The effects of lesions to thalamic lateral internal medullary lamina and posterior nuclei on learning, memory and habituation in the rat

Abstract

The behavioral effects of radiofrequency lesions to the lateral internal medullary lamina region (IML) or the posterior region (Po: containing the parafascicular and posterior nuclei) of the thalamus were compared to sham operated controls. Subjects were pre-operatively trained and then tested for post-operative retention of a NMTP task. Whereas the Po-lesion group was impaired only on long delays (60, 90 s), the IML-lesion group was impaired on retention and re-acquisition and demonstrated lower performance at all delays (5-90 s) of the NMTP task. Post-operative training and testing was conducted on three additional tasks: Morris water maze, acoustic startle, and passive avoidance. The IML-lesion group was impaired in finding a hidden and visual platform in the Morris water maze, demonstrated a blunted response but normal habituation to an acoustic startle stimulus, and showed normal retention of a passive avoidance task. On those three tasks, the performance of the Po-lesion group was similar to controls. In the IML-lesion group, neuronal loss resulting from axotomy and/or transneuronal degeneration was observed within nuclei of the midline and anterior thalamus and the mammillary body. These results suggest that lesions to the IML region disrupt a range of cognitive functions and produce pathological destruction in distant brain regions; whereas damage to the posterior thalamus causes spatial delay-sensitive deficits.