Dissociation of Recognition and Recency Memory Judgments After Anterior Thalamic Nuclei Lesions in Rats

The anterior thalamic nuclei form part of a network for episodic memory in humans. The importance of these nuclei for recognition and recency judgments remains, however, unclear. Rats with anterior thalamic nuclei lesions and their controls were tested on object recognition, along with two types of...

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Bibliographic Details
Published in:Behavioral neuroscience 2013-06, Vol.127 (3), p.415-431
Main Authors: Dumont, Julie R, Aggleton, John P
Format: Article
Language:English
Subjects:
Analysis of Variance
Animal
Animal behavior
Animal memory
Animals
Anterior Thalamic Nuclei - injuries
Anterior Thalamic Nuclei - physiology
Brain Lesions (Experimental)
Conditioning, Operant - physiology
Discrimination, Psychological
Dissociation
Episodic Memory
Interference (Learning)
Judgment
Judgment - physiology
Male
Maze Learning - physiology
Motor Activity
Neurosciences
Odorants
Odors
Phosphopyruvate Hydratase - metabolism
Photic Stimulation
Rats
Reaction Time - physiology
Recency Effect
Recognition (Learning)
Recognition, Psychology - physiology
Retention, Psychology - physiology
Rodents
Space Perception
Thalamic Nuclei
Time Factors
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Summary:The anterior thalamic nuclei form part of a network for episodic memory in humans. The importance of these nuclei for recognition and recency judgments remains, however, unclear. Rats with anterior thalamic nuclei lesions and their controls were tested on object recognition, along with two types of recency judgment. The spontaneous discrimination of a novel object or a novel odor from a familiar counterpart (recognition memory) was not affected by anterior thalamic lesions when tested after retention delays of 1 and 60 min. To measure recency memory, rats were shown two familiar objects, one of which had been explored more recently. In one condition, rats were presented with two lists (List A, List B) of objects separated by a delay, thereby creating two distinct blocks of stimuli. After an additional delay, rats were presented with pairs of objects, one from List A and one from List B ( between-block recency ). No lesion-induced deficit was apparent for recency discriminations between objects from different lists, despite using three different levels of task difficulty. In contrast, rats with anterior thalamic lesions were significantly impaired when presented with a continuous list of objects and then tested on their ability to distinguish between those items early and late in the same list ( within-block recency ). The contrasting effects on recognition and recency support the notion that interlinked hippocampal-anterior thalamic interconnections support aspects of both spatial and nonspatial learning, although the role of the anterior thalamic nuclei may be restricted to a subclass of recency judgments ( within-block ).
ISSN:0735-7044
1939-0084
DOI:10.1037/a0032750