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Use of a delayed non-matching to position task to model age-dependent cognitive decline in the dog

Spatial learning and memory in young and old dogs was studied in a series of experiments using a delayed non-matching to position (DNMP) paradigm. Past research from our laboratory has suggested that aged dogs perform more poorly on a version of the DNMP task compared to young dogs [Head et al., Spa...

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Published in:	Behavioural brain research 2000-02, Vol.108 (1), p.47-56
Main Authors:	Adams, Beth, Chan, Alan, Callahan, Heather, Siwak, Christina, Tapp, Dwight, Ikeda-Douglas, Candace, Atkinson, Patricia, Head, Elizabeth, Cotman, Carl W, Milgram, Norton W
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Language:	English
Subjects:	Age Factors Aging Aging - physiology Animals Behavioral psychophysiology Biological and medical sciences Canine Cognition Delayed non-matching to position Dog Dogs - physiology Female Fundamental and applied biological sciences. Psychology Male Memory Memory - physiology Miscellaneous Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Reaction Time - physiology Spatial Spatial Behavior - physiology
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container_title	Behavioural brain research
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creator	Adams, Beth Chan, Alan Callahan, Heather Siwak, Christina Tapp, Dwight Ikeda-Douglas, Candace Atkinson, Patricia Head, Elizabeth Cotman, Carl W Milgram, Norton W
description	Spatial learning and memory in young and old dogs was studied in a series of experiments using a delayed non-matching to position (DNMP) paradigm. Past research from our laboratory has suggested that aged dogs perform more poorly on a version of the DNMP task compared to young dogs [Head et al., Spatial learning and memory as a function of age in the dog, Behav. Neurosci. 1995;109(5):851–585]. We have now extended these findings by testing a large number of dogs on three different variations of the DNMP paradigm to evaluate different aspects of spatial learning and memory. Our results indicate that: (1) aged dogs show impaired spatial learning compared to young dogs, (2) aged dogs display spatial working memory deficits compared to young dogs, (3) young dogs have a greater maximum working spatial memory capacity than old dogs and (4) we can use the DNMP paradigm to cognitively categorize different subsets of aged dogs. These data indicate that the DNMP paradigm can serve as a valuable tool to evaluate age-dependent cognitive dysfunction in the canine.
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Past research from our laboratory has suggested that aged dogs perform more poorly on a version of the DNMP task compared to young dogs [Head et al., Spatial learning and memory as a function of age in the dog, Behav. Neurosci. 1995;109(5):851–585]. We have now extended these findings by testing a large number of dogs on three different variations of the DNMP paradigm to evaluate different aspects of spatial learning and memory. Our results indicate that: (1) aged dogs show impaired spatial learning compared to young dogs, (2) aged dogs display spatial working memory deficits compared to young dogs, (3) young dogs have a greater maximum working spatial memory capacity than old dogs and (4) we can use the DNMP paradigm to cognitively categorize different subsets of aged dogs. 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subjects	Age Factors Aging Aging - physiology Animals Behavioral psychophysiology Biological and medical sciences Canine Cognition Delayed non-matching to position Dog Dogs - physiology Female Fundamental and applied biological sciences. Psychology Male Memory Memory - physiology Miscellaneous Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Reaction Time - physiology Spatial Spatial Behavior - physiology
title	Use of a delayed non-matching to position task to model age-dependent cognitive decline in the dog
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