Abstract
To gain insight into cyclic motor learning processes, hand rim wheelchair propulsion is a suitable cyclic task, to be learned during early rehabilitation and novel to almost every individual. To propel in an energy efficient manner, wheelchair users must learn to control bimanually applied forces onto the rims, preserving both speed and direction of locomotion. The purpose of this study was to evaluate mechanical efficiency and propulsion technique during the initial stage of motor learning. Therefore, 70 naive able-bodied men received 12-min uninstructed wheelchair practice, consisting of three 4-min blocks separated by 2 min rest. Practice was performed on a motor-driven treadmill at a fixed belt speed and constant power output relative to body mass. Energy consumption and the kinetics of propulsion technique were continuously measured. Participants significantly increased their mechanical efficiency and changed their propulsion technique from a high frequency mode with a lot of negative work to a longer-slower movement pattern with less power losses. Furthermore a multi-level model showed propulsion technique to relate to mechanical efficiency. Finally improvers and non-improvers were identified. The non-improving group was already more efficient and had a better propulsion technique in the first block of practice (i.e., the fourth minute). These findings link propulsion technique to mechanical efficiency, support the importance of a correct propulsion technique for wheelchair users and show motor learning differences.
Highlights
W HEN confronted with a new motor task the performance of this task will usually improve through practice
The objective of the current study was to establish whether the motor learning process during the first 12 min of handrim wheelchair propulsion would lead to 1) an increased mechanical efficiency and a longer-slower movement rhythm; 2) an association of propulsion technique to mechanical efficiency within and between participants; 3) differences between participants in the motor learning process based on the degree of improvement in mechanical efficiency
Aim of the present study was to evaluate the change in mechanical efficiency and propulsion technique during the initial skill acquisition of a steady-state wheelchair propulsion task, using able-bodied participants
Summary
W HEN confronted with a new motor task the performance of this task will usually improve through practice. This process of skill acquisition is a key element of human func-. Date of publication October 09, 2013; date of current version January 06, 2014. The Open Access publication of this paper was funded by the Netherlands Organization for Scientific Research (NWO). A typical example of a totally new motor skill to be learned during rehabilitation is handrim wheelchair propulsion. Increased proficiency of the wheelchair propulsion skill is implied to improve mobility and reduce risks of injury, where literature advises to use long smooth strokes leading to a reduced frequency of movement [7]
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