Author:
Jović Jovana,Coste Christine Azevedo,Fraisse Philippe,Fattal Charles
Abstract
AbstractThe objective of the work presented is to improve functional electrical stimulation (FES) assisted sit-to-stand motion in complete paraplegic individuals by restoring coordination between the upper part of the subject’s body, under voluntary control, and the lower part of the body, under FES control. The proposed approach is based on the observation of trunk movement during rising motion and a detection algorithm, which triggers a pre-programmed stimulation pattern. We present a pilot study carried out on one T6 paraplegic subject. We validated the ability of the subject to produce repeatable trunk acceleration during sit-to-stand transfers under FES and, the ability of the system to trigger the stimulator at the desired instant in time. We also analyzed the influence of the timing of leg stimulation, relative to the trunk acceleration profile, on upper limb efforts applied during sit-to-stand motion.
Subject
Behavioral Neuroscience,Artificial Intelligence,Cognitive Neuroscience,Developmental Neuroscience,Human-Computer Interaction
Reference29 articles.
1. M. W. Rodosky, T. P. Adriacch, G. B. J. Andersson, The influence of chair hight on lower limb mechanics during rising, Journal of Orthopaedic Surgery and Research, vol 7, pp. 266–271, (1989)
2. K. M. Kerr, J. A. White, D. A. Barr, R. A. B. Mollan, Analysis of the sit-stand-sit movement cycle in normal subjects, Clinical Biomechanics, vol.12, pp. 236–245, (1997)
3. M. Schenkam, R. A. Berger, P. O. Riley, R. W. Mann, W. A. Hodge, Whole body movement during rising to standing from sitting, Phisical therapy, vol.70, pp. 51–61, (1990)
4. S. Yoshioka, A. Nagano, D. C. Hay, S. Fukashiro, Biomechanical analysis of the relation between movement time and joint development during sit-to-stand task, http://www.biomechanicalengineeringonline.com/content/8/1/27
5. A. Kralj, R. J. Jaeger, M. Munich, Analysis of standing up and sitting down in humans: Definition and normative data presentation, Journal of Biomechanics, vol. 23, pp. 1123–1138, (1990)