Faculty Collaboration Database

Transfer of short-term motor learning across the lower limbs as a function of task conception and practice order. Brain Cogn 2011 Nov;77(2):271-9

Date

09/06/2011

Pubmed ID

21889250

DOI

10.1016/j.bandc.2011.07.010

Scopus ID

2-s2.0-80054057035 (requires institutional sign-in at Scopus site)   23 Citations

Abstract

Interlimb transfer of motor learning, indicating an improvement in performance with one limb following training with the other, often occurs asymmetrically (i.e., from non-dominant to dominant limb or vice versa, but not both). In the present study, we examined whether interlimb transfer of the same motor task could occur asymmetrically and in opposite directions (i.e., from right to left leg vs. left to right leg) depending on individuals' conception of the task. Two experimental conditions were tested: In a dynamic control condition, the process of learning was facilitated by providing the subjects with a type of information that forced them to focus on dynamic features of a given task (force impulse); and in a spatial control condition, it was done with another type of information that forced them to focus on visuomotor features of the same task (distance). Both conditions employed the same leg extension task. In addition, a fully-crossed transfer paradigm was used in which one group of subjects initially practiced with the right leg and were tested with the left leg for a transfer test, while the other group used the two legs in the opposite order. The results showed that the direction of interlimb transfer varied depending on the condition, such that the right and the left leg benefited from initial training with the opposite leg only in the spatial and the dynamic condition, respectively. Our finding suggests that manipulating the conception of a leg extension task has a substantial influence on the pattern of interlimb transfer in such a way that the direction of transfer can even be opposite depending on whether the task is conceived as a dynamic or spatial control task.

Author List

Stöckel T, Wang J

Author

Jinsung Wang PhD Assistant Professor in the Human Movement Sciences department at University of Wisconsin - Milwaukee

MESH terms used to index this publication - Major topics in bold

Adult
Female
Functional Laterality
Humans
Learning
Lower Extremity
Male
Movement
Psychomotor Performance