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J Neurophysiol (April 1, 2003). 10.1152/jn.00674.2002
Submitted on Submitted 13 August 2002; accepted in final form 14 December 2002
Department of Life Sciences (Sports Sciences), Graduate School of Arts and Sciences, The University of Tokyo, Tokyo 153-8902, Japan
Hirashima, Masaya,
Kazutoshi Kudo, and
Tatsuyuki Ohtsuki.
Utilization and Compensation of Interaction Torques During
Ball-Throwing Movements. J. Neurophysiol. 89: 1784-1796, 2003. The manner in which the CNS deals with
interaction torques at each joint in ball throwing was investigated by
instructing subjects to throw a ball at three different speeds, using
two (elbow and wrist) or three joints (shoulder, elbow, and wrist). The
results indicated that the role of the muscle torque at the most
proximal joint was to accelerate the most proximal joint and to produce
the effect of interjoint interaction on the distal joints. In the
three-joint throwing, shoulder muscle torque produced the assistive
interaction torque for the elbow, which was effectively utilized to
generate large elbow angular velocity when throwing fast. However, at
the wrist, the muscle torque always counteracted the interaction
torque. By this kinetic mechanism, the wrist angular velocity at the
ball-release time was kept relatively constant irrespective of ball
speed, which would lead to an accurate ball release. Thus it was
concluded that humans can adjust the speed and accuracy of
ball-throwing by utilizing interaction torque or compensating for it.
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