Use of the Pyrithiamine-Induced Thiamine Deficient Animal Model of Korsakoff's Syndrome for Exploratory Research Activities in Undergraduate Physiological Psychology

Overview

Journal J Undergrad Neurosci Educ

Date 2013 Mar 16

PMID 23494173

Citations 1

Authors

Robert W Flint Jr

Jonathan E Hill

Leslie A Sandusky

Christina L Marino

Affiliations

Soon will be listed here.

Abstract

Undergraduate neuroscience laboratory activities frequently focus on exercises that build student's wet/dry laboratory skills, foster critical thinking, and provide opportunities for hands-on experiences. Such activities are, without a doubt, extremely important, but sometimes fall short of modeling actual research and often lack the 'unknown' hypothetical nature accompanying empirical studies. In this article we report a series of research activities using an animal model of Korsakoff's syndrome in a Physiological Psychology course. The activities involve testing hypotheses regarding performance of animals with experimentally-induced Korsakoff's syndrome and the effectiveness of glucose as a memory-enhancer in this model. Students were given a set of 24 articles for use in answering a series of laboratory report questions regarding the activities. At the conclusion of the course, students were asked to complete a questionnaire designed to assess the effectiveness of the laboratory activities. Results of the laboratory exercises indicated that locomotor activity, environmental habituation, and anxiety were unaffected in the Korsakoff condition, and glucose had no effect. Results of performance in the T-maze indicated that Korsakoff animals had significantly fewer spontaneous alternations than controls, but Korsakoff animals given glucose did not reveal this difference. Results of the student assessments indicated that the activities were considered educational, challenging, and more interesting than standard laboratory activities designed to reproduce reliable phenomena.

Citing Articles

Thiamine Deficiency Causes Long-Lasting Neurobehavioral Deficits in Mice.

Li H, Xu H, Wen W, Wu L, Xu M, Luo J Brain Sci. 2020; 10(8).

PMID: 32824629 PMC: 7464042. DOI: 10.3390/brainsci10080565.

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