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Jacquelin Perry Special Issue: Stepping Forward With Gait Rehabilitation |
D.L. Damiano, PT, PhD, is Chief, Functional and Applied Biomechanics Section, Rehabilitation Medicine Department, NIH Clinical Center, Bldg 10, Room 1–1469, Bethesda, MD 20892 (USA).
A.S. Arnold, PhD, is Research Associate, Concord Field Station, Harvard University, Bedford, Massachusetts.
K.M. Steele, MS, is a doctoral student in the Department of Mechanical Engineering, Stanford University School of Engineering, Stanford, California.
S.L. Delp, PhD, is Professor of Bioengineering and Mechanical Engineering, Stanford University Schools of Engineering and Medicine.
Address all correspondence to Dr Damiano at: damianod{at}cc.nih.gov.
Background: Computer simulations have demonstrated that excessive hip and knee flexion during gait, as frequently seen in ambulatory children with cerebral palsy (CP), can reduce the ability of muscles to provide antigravity support and increase the tendency of hip muscles to internally rotate the thigh. These findings suggest that therapies for improving upright posture during gait also may reduce excessive internal rotation.
Objective: The goal of this study was to determine whether strength training can diminish the degree of crouched, internally rotated gait in children with spastic diplegic CP.
Design: This was a pilot prospective clinical trial.
Methods: Eight children with CP participated in an 8-week progressive resistance exercise program, with 3-dimensional gait analysis and isokinetic testing performed before and after the program. Secondary measures included passive range of motion, the Ashworth Scale, and the PedsQL CP Module. To identify factors that may have influenced outcome, individual and subgroup data were examined for patterns of change within and across variables.
Results: Strength (force-generating capacity) increased significantly in the left hip extensors, with smaller, nonsignificant mean increases in the other 3 extensor muscle groups, yet kinematic and functional outcomes were inconsistent. The first reported subject-specific computer simulations of crouch gait were created for one child who showed substantial benefit to examine the factors that may have contributed to this outcome.
Limitations: The sample was small, with wide variability in outcomes.
Conclusions: Strength training may improve walking function and alignment in some patients for whom weakness is a major contributor to their gait deficits. However, in other patients, it may produce no change or even undesired outcomes. Given the variability of outcomes in this and other strengthening studies in CP, analytical approaches to determine the sources of variability are needed to better identify those individuals who are most likely to benefit from strengthening.
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