TY - JOUR AU - Bilston L. AU - Gandevia S. AU - Herbert Rob AU - Diong Joanna AU - Clarke J. AU - Harvey L. AU - Chow Clara AB -
OBJECTIVE: The aim of this study was to examine changes in passive length and stiffness of the gastrocnemius muscle-tendon unit in people after spinal cord injury. DESIGN: In a prospective longitudinal study, eight wheelchair-dependent participants with severe paralysis were assessed 3 and 12 mos after spinal cord injury. Passive torque-angle data were obtained as the ankle was slowly rotated through range at six knee angles. Differences in passive ankle torque-angle data recorded at different knee angles were used to derive passive length-tension curves of the gastrocnemius muscle-tendon unit. Ultrasound imaging was used to determine fascicle and tendon contributions to the muscle-tendon unit length-tension curves. RESULTS: The participants had ankle contractures (mean [SD] maximum passive ankle dorsiflexion angle, 88 [9] degrees) 3 mos after spinal cord injury. Ankle range did not worsen significantly during the subsequent 9 mos (mean change, -5 degrees; 95% confidence interval, -16 to 6 degrees). There were no changes in the mean slack length or the stiffness of the gastrocnemius muscle-tendon unit or in the slack lengths of the fascicles or the tendon between 3 and 12 mos after spinal cord injury. There were no consistent patterns of the change in slack length or stiffness with the changes in ankle range in the data from the individual participants. CONCLUSIONS: This study, the first longitudinal study of muscle length and stiffness after spinal cord injury, showed that the length and the stiffness of the gastrocnemius did not change substantially between 3 and 12 mos after injury.
AD - From The George Institute for Global Health, Sydney, Australia (JD, LKK); the Rehabilitation Studies Unit (LAH) and the Faculty of Health Sciences (JLC), The University of Sydney, Sydney, Australia; and Neuroscience Research Australia and The University of New South Wales, Sydney, Australia (RDH, LEB, SCG). AN - 23117273 BT - American Journal of Physical Medicine and Rehabilitation DP - NLM ET - 2012 October 31 LA - Eng N1 - Diong, JoannaHarvey, Lisa AKwah, Li KhimClarke, Jillian LBilston, Lynne EGandevia, Simon CHerbert, Robert DAm J Phys Med Rehabil. 2012 Oct 31. N2 -OBJECTIVE: The aim of this study was to examine changes in passive length and stiffness of the gastrocnemius muscle-tendon unit in people after spinal cord injury. DESIGN: In a prospective longitudinal study, eight wheelchair-dependent participants with severe paralysis were assessed 3 and 12 mos after spinal cord injury. Passive torque-angle data were obtained as the ankle was slowly rotated through range at six knee angles. Differences in passive ankle torque-angle data recorded at different knee angles were used to derive passive length-tension curves of the gastrocnemius muscle-tendon unit. Ultrasound imaging was used to determine fascicle and tendon contributions to the muscle-tendon unit length-tension curves. RESULTS: The participants had ankle contractures (mean [SD] maximum passive ankle dorsiflexion angle, 88 [9] degrees) 3 mos after spinal cord injury. Ankle range did not worsen significantly during the subsequent 9 mos (mean change, -5 degrees; 95% confidence interval, -16 to 6 degrees). There were no changes in the mean slack length or the stiffness of the gastrocnemius muscle-tendon unit or in the slack lengths of the fascicles or the tendon between 3 and 12 mos after spinal cord injury. There were no consistent patterns of the change in slack length or stiffness with the changes in ankle range in the data from the individual participants. CONCLUSIONS: This study, the first longitudinal study of muscle length and stiffness after spinal cord injury, showed that the length and the stiffness of the gastrocnemius did not change substantially between 3 and 12 mos after injury.
PY - 2012 SN - 1537-7385 (Electronic)0894-9115 (Linking) T2 - American Journal of Physical Medicine and Rehabilitation TI - Gastrocnemius Muscle Contracture After Spinal Cord Injury: A Longitudinal Study ER -