Do axes of rotation change during fast and slow motions of the dominant and non-dominate arms?
BIO Web of Conferences(2011)
摘要
The velocity-dependent change in rotational axes observed in the control of unconstrained 3D arm rotations for the dominant limb seems to conform to a minimum inertia resistance (MIR) principle (4). This is an efficient biomechanical solution that allows for the reduction of torques. We tested whether the MIR principle governs rotating movement when subjects were instructed to maintain the shoulder-elbow joint axis close to horizontal for both dominant and non dominant limbs. Subjects (n=12) performed external- internal rotations of their arms in two angular positions (90° versus 150°), two angular velocities (slow (S) versus fast (F)), and in two sensory conditions (kinaesthetic (K) versus visuo- kinaesthetic (VK)). We expected more scattered displacements of the rotation axis employed for rotating the non dominant limb compared to the dominant limb. The results showed that the rotational axis of a multi- articulated limb coincided with SH-EL at S & F velocity for both arms.
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