Perirhinal cortex and the neural basis of object memory in the rat

This thesis aimed to investigate the role of the perirhinal cortex in object memory in the rat. The first experiment tested the hypothesis that the perirhinal cortex is critical to memory for relationships between objects by testing postoperative learning of novel visual-visual stimulus associations...

Full description

Bibliographic Details
Main Author: Norman, Gillian
Published: Durham University 2002
Subjects:
573
Online Access:http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.268816
Description
Summary:This thesis aimed to investigate the role of the perirhinal cortex in object memory in the rat. The first experiment tested the hypothesis that the perirhinal cortex is critical to memory for relationships between objects by testing postoperative learning of novel visual-visual stimulus associations following lesions of the perirhinal cortex. The hypothesis was not supported: postoperative performance was not impaired. Experiments 3.1-3.4 tested the hypothesis that perirhinal cortex is crucial to the integration of multiple features into a representation of an object using spontaneous object recognition with either reconfigured objects or multiple objects. The hypothesis was supported: perirhinal lesions caused disproportionate impairment on tasks involving feature ambiguity. Experiments 4.1-4.7 investigated the effects of, perirhinal, postrhinal or fornix lesions on aspects of memory for object-context associations. The hypothesis that postrhinal and fornix lesioned animals would be more impaired than perirhinal animals was confirmed. Postrhinal lesions impaired memory for object-context associations, as, less severely, did fornix lesions; perirhinal lesions impaired memory when another object was used as the context. Experiment 5.1 used a novel model for episodic-like memory and tested the hypothesis that postrhinal or fornix, but not perirhinal lesions would cause impairment. One of these predictions was supported: fornix but not postrhinal or perirhinal lesions caused severe impairment of episodic-like memory. The fornix impairment was not due to an impairment of memory for object-place associations (experiment 5.2). Finally, experiments 6.1-6.7 investigated the possible function of L-type calcium channels in perirhinal cortex. The dihydropyridine nimodipine was successfully used to reverse the effects of the muscarinic antagonist scopolamine on the spontaneous object recognition task. It is concluded that perirhinal lesions in the rat result in impairments of memory which involve the processing of objects and the relation of their constituent features to each other. They do not impair memory for the association either of distinct objects or of objects and background contexts or locations. This is contrasted with the impairment of memory for object-in-context which results from postrhinal lesions and the impairment of episodic- like memory which results from fornix lesions. The importance of the cholinergic system in object recognition is confirmed and the importance of L-type calcium channels to such memory is suggested.