Affiliation:
1. Université de Montréal
Abstract
Abstract
Repetitive movements are considered a risk factor for developing practice-related musculoskeletal disorders. Intra-participant kinematic variability might help musicians reduce the risk of injury during repetitive tasks. No research has studied the effects of proximal motion (i.e., trunk and shoulder movement) on upper-limb movement variability in pianists. The first objective was to determine the effect of proximal movement strategies and performance tempo on both intra-participant joint angle variability of upper-limb joints and endpoint variability. The second objective was to compare joint angle variability between pianist’s upper-limb joints. As secondary objectives, we assessed the relationship between intra-participant joint angle variability and task range of motion (ROM) and documented inter-participant joint angle variability. The upper body kinematics of 9 expert pianists were recorded using an optoelectronic system. Participants continuously performed two right-hand chords (lateral leap motions) while changing movements based on trunk motion (with and without) and shoulder motion (counter-clockwise, back-and-forth, and clockwise) at two tempi (slow and fast). Trunk and shoulder movement strategies collectively influenced variability at the shoulder, elbow and, to a lesser extent, the wrist. Slow tempo led to greater variability at wrist and elbow flexion/extension compared to fast tempos. Endpoint variability was influenced only along the anteroposterior axis. When the trunk was static, the shoulder had the lowest joint angle variability. When trunk motion was used, elbow and shoulder variability increased, and became comparable to wrist variability. ROM was correlated with intra-participant joint angle variability, suggesting that increased task ROM might result in increased movement variability during practice. Inter-participant variability was approximately six times greater than intra-participant variability. Pianists should consider incorporating trunk motion and a variety of shoulder movements as performance strategies while performing leap motions at the piano, as they might reduce exposure to risks of injury.
Publisher
Research Square Platform LLC
Reference62 articles.
1. The prevalence of playing-related musculoskeletal disorders in relation to piano players’ playing techniques and practising strategies;Allsop L;Music Performance Research,2010
2. Amaral Corrêa, L., Teixeira Dos Santos, L., Nogueira Paranhos, E. N., Minetti Albertini, A. I., do Carmo Silva Parreira, P., & Calazans Nogueira, L. A. (2018). Prevalence and risk factors for musculoskeletal pain in keyboard musicians: A systematic review. PM & R: The Journal of Injury, Function, and Rehabilitation, 10(9), 942–950. https://doi.org/10.1016/j.pmrj.2018.04.001
3. A new method for non-parametric multivariate analysis of variance;Anderson MJ;Austral Ecology,2001
4. Bangert, M., Wiedemann, A., & Jabusch, H.-C. (2014). Effects of variability of practice in music: A pilot study on fast goal-directed movements in pianists. Frontiers in Human Neuroscience, 8. https://www.frontiersin.org/articles/10.3389/fnhum.2014.00598
5. Is movement variability important for sports biomechanists?;Bartlett R;Sports Biomechanics,2007