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Effects of reinforcement schedule on facilitation of operant extinction by chlordiazepoxide

Biomedical Sciences Research Institute Computer Science Research Institute Environmental Sciences Research Institute Nanotechnology & Advanced Materials Research Institute

Leslie, Julian, Shaw, David, Gregg, G, McCormick, N, Reynolds, DS and Dawson, GR (2005) Effects of reinforcement schedule on facilitation of operant extinction by chlordiazepoxide. JOURNAL OF THE EXPERIMENTAL ANALYSIS OF BEHAVIOR, 84 (3). pp. 327-338. [Journal article]

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DOI: 10.1901/jeab.2005.71-04

Abstract

Learning and memory are central topics in behavioral neuroscience, and inbred mice strains are widely investigated. However, operant conditioning techniques are not as extensively used in this field as they should be, given the effectiveness of the methodology of the experimental analysis of behavior. In the present study, male C57B1/6 mice, widely used as background for transgenic studies, were trained to lever press on discrete-trial fixed-ratio 5 or fixed-interval (11 s or 31 s) schedules of food reinforcement and then exposed to 15 extinction sessions following vehicle or chlordiazepoxide injections (15 mg/kg i.p., administered either prior to all extinction sessions, or prior to the final 10 extinction sessions). Extinction of operant behavior was facilitated by drug administration following training on either schedule, but this facilitation only occurred once a number of extinction sessions had taken place. The extinction process proceeded more rapidly following fixed-interval training. Resistance to extinction was equally high following training with either schedule type, and was reduced by drug administration in both cases. These phenomena were evident in individual Cumulative records and in analyses of group data. Results are interpreted in terms of phenomena of operant extinction identified in Skinner's (1938) Behavior of organisms, and by behavioral momentum theory. These procedures could be used to extend the contribution of operant conditioning to contemporary behavioral neuroscience.

Item Type:Journal article
Faculties and Schools:Faculty of Life and Health Sciences
Faculty of Life and Health Sciences > School of Psychology
Research Institutes and Groups:Psychology Research Institute
Psychology Research Institute > Behavioural Neuroscience & Behavioural Analysis
ID Code:1649
Deposited By:Mrs Fiona Harkin
Deposited On:23 Dec 2009 09:31
Last Modified:13 Mar 2012 16:33

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