Research article summary:

Short- and long-term changes in joint co-contraction associated with motor learning as revealed from surface EMG.

Abstract Extract:
In the field of motor control, two hypotheses have been controversial: whether the brain acquires internal models that generate accurate motor commands, or whether the brain avoids this by using the viscoelasticity of musculoskeletal system. Recent ... (Full abstract text below)

Published 2002Aug in Journal: J Neurophysiol (Language : eng)

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1. J Neurophysiol. 2002 Aug;88(2):991-1004

Short- and long-term changes in joint co-contraction associated with motor learning as revealed from surface EMG.

Osu R, Franklin DW, Kato H, Gomi H, Domen K, Yoshioka T, Kawato M

Kawato Dynamic Brain Project, Japan Science and Technology Corporation, Japan. osu@atr.co.jp

In the field of motor control, two hypotheses have been controversial: whether the brain acquires internal models that generate accurate motor commands, or whether the brain avoids this by using the viscoelasticity of musculoskeletal system. Recent observations on relatively low stiffness during trained movements support the existence of internal models. However, no study has revealed the decrease in viscoelasticity associated with learning that would imply improvement of internal models as well as synergy between the two hypothetical mechanisms. Previously observed decreases in electromyogram (EMG) might have other explanations, such as trajectory modifications that reduce joint torques. To circumvent such complications, we required strict trajectory control and examined only successful trials having identical trajectory and torque profiles. Subjects were asked to perform a hand movement in unison with a target moving along a specified and unusual trajectory, with shoulder and elbow in the horizontal plane at the shoulder level. To evaluate joint viscoelasticity during the learning of this movement, we proposed an index of muscle co-contraction around the joint (IMCJ). The IMCJ was defined as the summation of the absolute values of antagonistic muscle torques around the joint and computed from the linear relation between surface EMG and joint torque. The IMCJ during isometric contraction, as well as during movements, was confirmed to correlate well with joint stiffness estimated using the conventional method, i.e., applying mechanical perturbations. Accordingly, the IMCJ during the learning of the movement was computed for each joint of each trial using estimated EMG-torque relationship. At the same time, the performance error for each trial was specified as the root mean square of the distance between the target and hand at each time step over the entire trajectory. The time-series data of IMCJ and performance error were decomposed into long-term components that showed decreases in IMCJ in accordance with learning with little change in the trajectory and short-term interactions between the IMCJ and performance error. A cross-correlation analysis and impulse responses both suggested that higher IMCJs follow poor performances, and lower IMCJs follow good performances within a few successive trials. Our results support the hypothesis that viscoelasticity contributes more when internal models are inaccurate, while internal models contribute more after the completion of learning. It is demonstrated that the CNS regulates viscoelasticity on a short- and long-term basis depending on performance error and finally acquires smooth and accurate movements while maintaining stability during the entire learning process.

PMID : 12163548 [PubMed - Indexed for MEDLINE]

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Full Author Information

First Name	LastName	Initials
Rieko	Osu	R
David W	Franklin	DW
Hiroko	Kato	H
Hiroaki	Gomi	H
Kazuhisa	Domen	K
Toshinori	Yoshioka	T
Mitsuo	Kawato	M

Affiliation: Kawato Dynamic Brain Project, Japan Science and Technology Corporation, Japan. osu@atr.co.jp

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