Interlateral transfer of learning between the legs in body balance training is a topic of theoretical and practical interest, but it has been left untouched in previous research. In this investigation, we aimed to evaluate the magnitude and asymmetry of interlateral transfer of balance stability following the practice of a challenging task of unipedal support on an unstable base. Thirty participants (18-30 years old) were assigned to two groups practicing either with the right or the left leg. Training consisted of a single practice session of unipedal balance on a platform free to sway in the anteroposterior direction. Balance time (off ground) of either leg in 10-s trials was compared across pre-test, post-test, and 7-day retention. Post-test indicated that both groups had similar performance gains with the trained leg, and equivalent transfer to the transfer leg. Analysis of retention indicated further balance improvement with both transfer legs, while practice with the right leg led to the superior transfer to the untrained leg as compared to the opposite transfer direction. These results suggest that persistent transfer of learning effects for unipedal dynamic balance is bilateral but more prominent in the right-to-left direction.
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Asymmetric interlateral transfer of motor learning in unipedal dynamic balance.
Exp Brain Res
December 2020
Motor Neuroscience Research Group, Londrina State University, Londrina, Brazil.
Interlateral transfer of learning between the legs in body balance training is a topic of theoretical and practical interest, but it has been left untouched in previous research. In this investigation, we aimed to evaluate the magnitude and asymmetry of interlateral transfer of balance stability following the practice of a challenging task of unipedal support on an unstable base. Thirty participants (18-30 years old) were assigned to two groups practicing either with the right or the left leg.
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View Article and Find Full Text PDFIntermanual transfer of force control is modulated by asymmetry of muscular strength.
Exp Brain Res
April 2003
School of Physical Education and Sport, University of São Paulo, Brazil.
Interlateral transfer of learning is conceptualized as an index of the degree to which learning takes place at a lower level of motor control, with strong dependence on the effector system, or at a higher effector-independent level in the movement organization hierarchy. In this study, the locus of motor learning was investigated by increasing lateral asymmetry of force between the wrist flexor muscles, and comparing the amount of interlateral transfer of force control in relation to a condition of symmetric force. To perform this contrast, the participants were assigned to one of three groups: symmetric force (SM), who were left with original asymmetries of muscular strength; asymmetric force (AS), who had unilateral training for increment of maximum strength for the wrist flexor muscles; or a control condition (CO).
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