Successive roles of the cerebellum and premotor cortices in trajectorial learning

The structures of the human brain engaged during learning of unilateral trajectorial hand movements were mapped by measurements of regional cerebral blood flow. Trajectorial movement velocity accelerated moderately after short-term training p < 0.025 and increased further after long-term training...

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Bibliographic Details
Published inNeuroreport Vol. 5; no. 18; p. 2541
Main Authors Seitz, R J, Canavan, A G, Yágüez, L, Herzog, H, Tellmann, L, Knorr, U, Huang, Y, Hömberg, V
Format Journal Article
LanguageEnglish
Published England 20.12.1994
Subjects
Cerebellum - physiology
Cerebrovascular Circulation
Functional Laterality
Handwriting
Humans
Learning - physiology
Motor Activity - physiology
Motor Cortex - diagnostic imaging
Motor Cortex - physiology
Time Factors
Tomography, Emission-Computed
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Summary:The structures of the human brain engaged during learning of unilateral trajectorial hand movements were mapped by measurements of regional cerebral blood flow. Trajectorial movement velocity accelerated moderately after short-term training p < 0.025 and increased further after long-term training p < 0.01. During the early phase of learning there was a significant activation p < 0.001 of the ipsilateral dentate nucleus. By contrast, after overlearning the premotor cortical areas in both cerebral hemispheres were maximally activated p < 0.001, while the dentate nucleus was no longer activated. It is suggested that learning of new movement trajectories involves the cerebellum, while overlearned trajectorial movements engage the premotor cortex.
ISSN:0959-4965
DOI:10.1097/00001756-199412000-00034