AUTHOR: Biomed Mom TITLE: Dopamine and learning DATE: 5/15/2007 08:59:00 AM ----- BODY:

Levodopa: faster and better word learning in normal humans. Knecht S, Breitenstein C, Bushuven S, Wailke S, Kamping S, Floel A, Zwitserlood P, Ringelstein EB. Department of Neurology, University of Munster, Albert-Schweitzer-Strasse 33, D-48129 Munster, Germany. knecht@uni-muenster.de Dopamine is a potent modulator of learning and has been implicated in the encoding of stimulus salience. Repetition, however, as required for the acquisition and reacquisition of sensorimotor or cognitive skills (e.g., in aphasia therapy), decreases salience. We here tested whether increasing brain levels of dopamine during repetitive training improves learning success. Forty healthy humans took 100mg of the dopamine precursor levodopa or placebo daily for 5 days in a randomized double-blind and parallel-group design. Ninety minutes later on each day, subjects were trained on an artificial vocabulary using a high-frequency repetitive approach. Levodopa significantly enhanced the speed, overall success, and long-term retention of novel word learning in a dose-dependent manner. These findings indicate new ways to potentiate learning in a variety of domains if conventional training alone fails.

Labels: Dopamine, learning

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Adopt Biomed

This blog gathers information about biomedical interventions for children with adoption trauma and Reactive Attachment Disorder. Posts are gathered from multiple websites in one place. Most posts contain unedited text relating to biomedical treatment, dietary changes, vitamins, homeopathy, herbs, etc. Where possible, the link to the original information is included.

Tuesday, May 15, 2007

Dopamine and learning

Levodopa: faster and better word learning in normal humans. Knecht S, Breitenstein C, Bushuven S, Wailke S, Kamping S, Floel A, Zwitserlood P, Ringelstein EB. Department of Neurology, University of Munster, Albert-Schweitzer-Strasse 33, D-48129 Munster, Germany. knecht@uni-muenster.de Dopamine is a potent modulator of learning and has been implicated in the encoding of stimulus salience. Repetition, however, as required for the acquisition and reacquisition of sensorimotor or cognitive skills (e.g., in aphasia therapy), decreases salience. We here tested whether increasing brain levels of dopamine during repetitive training improves learning success. Forty healthy humans took 100mg of the dopamine precursor levodopa or placebo daily for 5 days in a randomized double-blind and parallel-group design. Ninety minutes later on each day, subjects were trained on an artificial vocabulary using a high-frequency repetitive approach. Levodopa significantly enhanced the speed, overall success, and long-term retention of novel word learning in a dose-dependent manner. These findings indicate new ways to potentiate learning in a variety of domains if conventional training alone fails.

Labels: Dopamine, learning

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