Modeling investigation of learning a fast elbow flexion in the horizontal plane—prediction of muscle forces and motor units action.

Autor: Raikova, R. T., Gabriel, D. A., Aladjov, H. Ts.
Předmět:
Zdroj: Computer Methods in Biomechanics & Biomedical Engineering; Aug2006, Vol. 9 Issue 4, p211-219, 9p
Abstrakt: Experimental investigation of practicing a dynamic, goal-directed movement reveals significant changes in kinematics. Modeling can provide insight into the alterations in muscle activity, associated with the kinematic adaptations, and reveal the potential motor unit (MU) firing patterns that underlie those changes. In this paper, a previously developed muscle model and software (Raikova and Aladjov, Journal of Biomechanics, 35, 2002) have been used to investigate changes in MU control, while practicing fast elbow flexion to a target in the horizontal plane. The first trial (before practice) and the last trial (after extensive practice) of two subjects have been simulated. The inputs for the simulation were the calculated external moments at the elbow joint. The external moments were countered by the action of three flexor muscles and two extensor ones. The muscles have been modeled as a mixture of MUs of different types. The software has chosen the MU firing times necessary to accomplish the movement. The muscle forces and MUs firing statistics were then calculated. Three hypotheses were tested and confirmed: (1) peak muscle forces and antagonist co-contraction increase during training; (2) there is an increase in the firing frequency and the synchronization between MUs; and (3) the recruitment of fast-twitch MUs dominates the action. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index