Task-specific contribution of the human striatum to perceptual-motor skill learning

Sara Cavaco; Steven W. Anderson; Manuel Correia; Marina Magalhães; Cláudia Pereira; Assunção Tuna; Ricardo Taipa; Pedro Pinto; Cláudia Pinto; Romeu Cruz; António Bastos Lima; Alexandre Castro-Caldas; António Martins Da Silva; Hanna Damásio

doi:10.1080/13803395.2010.493144

Task-specific contribution of the human striatum to perceptual-motor skill learning

Sara Cavaco^*, Steven W. Anderson, Manuel Correia, Marina Magalhães, Cláudia Pereira, Assunção Tuna, Ricardo Taipa, Pedro Pinto, Cláudia Pinto, Romeu Cruz, António Bastos Lima, Alexandre Castro-Caldas, António Martins Da Silva, Hanna Damásio

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

Acquisition of new perceptual-motor skills depends on multiple brain areas, including the striatum. However, the specific contribution of each structure to this type of learning is still poorly understood. Focusing on the striatum, we proposed (a) to replicate the finding of impaired rotary pursuit (RP) and preserved mirror tracing (MT) in Huntington's disease (HD); and (b) to further explore this putative learning dissociation with other human models of striatal dysfunction (i.e., Parkinson's disease and focal vascular damage) and two new paradigms (i.e., Geometric Figures, GF, and Control Stick, CS) of skill learning. Regardless of the etiology, participants with damage to the striatum showed impaired learning of visuomotor tracking skills (i.e., RP and GF), whereas the ability to learn skills that require motor adaptation (i.e., MT and CS) was not affected. These results suggest a task-specific involvement of the striatum in the early stages of skill learning.

Original language	English
Pages (from-to)	51-62
Number of pages	12
Journal	Journal of Clinical and Experimental Neuropsychology
Volume	33
Issue number	1
DOIs	https://doi.org/10.1080/13803395.2010.493144
Publication status	Published - Jan 2011

Keywords

Huntington's disease
Nondeclarative memory
Parkinson's disease
Skill learning
Striatum

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10.1080/13803395.2010.493144

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Cavaco, S., Anderson, S. W., Correia, M., Magalhães, M., Pereira, C., Tuna, A., Taipa, R., Pinto, P., Pinto, C., Cruz, R., Lima, A. B., Castro-Caldas, A., Da Silva, A. M., & Damásio, H. (2011). Task-specific contribution of the human striatum to perceptual-motor skill learning. Journal of Clinical and Experimental Neuropsychology, 33(1), 51-62. https://doi.org/10.1080/13803395.2010.493144

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abstract = "Acquisition of new perceptual-motor skills depends on multiple brain areas, including the striatum. However, the specific contribution of each structure to this type of learning is still poorly understood. Focusing on the striatum, we proposed (a) to replicate the finding of impaired rotary pursuit (RP) and preserved mirror tracing (MT) in Huntington's disease (HD); and (b) to further explore this putative learning dissociation with other human models of striatal dysfunction (i.e., Parkinson's disease and focal vascular damage) and two new paradigms (i.e., Geometric Figures, GF, and Control Stick, CS) of skill learning. Regardless of the etiology, participants with damage to the striatum showed impaired learning of visuomotor tracking skills (i.e., RP and GF), whereas the ability to learn skills that require motor adaptation (i.e., MT and CS) was not affected. These results suggest a task-specific involvement of the striatum in the early stages of skill learning.",

keywords = "Huntington's disease, Nondeclarative memory, Parkinson's disease, Skill learning, Striatum",

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Cavaco, S, Anderson, SW, Correia, M, Magalhães, M, Pereira, C, Tuna, A, Taipa, R, Pinto, P, Pinto, C, Cruz, R, Lima, AB, Castro-Caldas, A, Da Silva, AM & Damásio, H 2011, 'Task-specific contribution of the human striatum to perceptual-motor skill learning', Journal of Clinical and Experimental Neuropsychology, vol. 33, no. 1, pp. 51-62. https://doi.org/10.1080/13803395.2010.493144

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AU - Cavaco, Sara

AU - Anderson, Steven W.

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AU - Magalhães, Marina

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AU - Tuna, Assunção

AU - Taipa, Ricardo

AU - Pinto, Pedro

AU - Pinto, Cláudia

AU - Cruz, Romeu

AU - Lima, António Bastos

AU - Castro-Caldas, Alexandre

AU - Da Silva, António Martins

AU - Damásio, Hanna

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N2 - Acquisition of new perceptual-motor skills depends on multiple brain areas, including the striatum. However, the specific contribution of each structure to this type of learning is still poorly understood. Focusing on the striatum, we proposed (a) to replicate the finding of impaired rotary pursuit (RP) and preserved mirror tracing (MT) in Huntington's disease (HD); and (b) to further explore this putative learning dissociation with other human models of striatal dysfunction (i.e., Parkinson's disease and focal vascular damage) and two new paradigms (i.e., Geometric Figures, GF, and Control Stick, CS) of skill learning. Regardless of the etiology, participants with damage to the striatum showed impaired learning of visuomotor tracking skills (i.e., RP and GF), whereas the ability to learn skills that require motor adaptation (i.e., MT and CS) was not affected. These results suggest a task-specific involvement of the striatum in the early stages of skill learning.

AB - Acquisition of new perceptual-motor skills depends on multiple brain areas, including the striatum. However, the specific contribution of each structure to this type of learning is still poorly understood. Focusing on the striatum, we proposed (a) to replicate the finding of impaired rotary pursuit (RP) and preserved mirror tracing (MT) in Huntington's disease (HD); and (b) to further explore this putative learning dissociation with other human models of striatal dysfunction (i.e., Parkinson's disease and focal vascular damage) and two new paradigms (i.e., Geometric Figures, GF, and Control Stick, CS) of skill learning. Regardless of the etiology, participants with damage to the striatum showed impaired learning of visuomotor tracking skills (i.e., RP and GF), whereas the ability to learn skills that require motor adaptation (i.e., MT and CS) was not affected. These results suggest a task-specific involvement of the striatum in the early stages of skill learning.

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Task-specific contribution of the human striatum to perceptual-motor skill learning

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Keywords

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