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The Relationship of Lower-Extremity Muscle Torque to Locomotor Performance in People With Stroke

CM Kim, PT, MSc, is Research Associate, Rehabilitation Research Laboratory, GF Strong Rehab Centre, Vancouver, British Columbia, Canada
JJ Eng, PT/OT, PhD, is Associate Professor, School of Rehabilitation Sciences, University of British Columbia, T325-2211 Wesbrook Mall, Vancouver, British Columbia, Canada V6T 2B5 (janicee{at}interchange.ubc.ca), and Rehabilitation Research Laboratory, GF Strong Rehab Centre.

Address all correspondence to Dr Eng

Background and Purpose. Improved walking is a common goal after stroke. The purpose of this study was to examine the relationship between the torque generated by the muscles of both lower extremities and 2 locomotor tasks: gait on level surfaces and stair climbing in people who had strokes. Subjects. Twenty community-dwelling individuals (mean age=61.2 years, SD=8.4, range=52-82) who had strokes and who were able to walk independently participated in the study. The mean time since stroke was 4.0 years (SD=2.6, range=1.5-10.0). Methods. Pearson correlations and multiple regression were used to measure the relationship between concentric isokinetic torque of the flexor and extensor muscles of the hip, knee, and ankle bilaterally and locomotor performance (gait on level surfaces and stair-climbing speed). Results. The isokinetic torques of the paretic ankle plantar flexors, hip flexors, and knee flexors had moderate to high correlations (r=.5-.8) with gait and stair-climbing speeds. Muscle force could explain 66% to 72% of the variability in gait and stair-climbing speeds. Correlations for the nonparetic side were as high as or higher than those for the paretic side for some muscle groups. Discussion and Conclusion. Muscle performance measurements of both limbs should be included in the evaluation of locomotion and treatment of people following a stroke.

Key Words: Gait • Strength • Stroke

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