Paralysis Research Today is a free monthly online journal that collates and summarizes the latest research about Paralysis, including details on treatment, diagnosis, facial paralysis, sleep paralysis. | ||||||||
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Deficits in upper-limb task performance in children with hemiplegic cerebral palsy as defined by 3-dimensional kinematics.Mackey AH, Walt SE, Stott NS Department of Surgery, University of Auckland, New Zealand. a.mackey@auckland.ac.nz OBJECTIVE: To define upper-limb movement deficits in children with hemiplegia using 3-dimensional (3-D) kinematic analysis of functional tasks. DESIGN: Cohort study. SETTING: University gait laboratory. PARTICIPANTS: Ten children with hemiplegic cerebral palsy (mean age, 13.3y; range, 10-17y) and 10 control children (mean age, 9.8y; range, 6-12y). INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURE: 3-D upper-limb movement analysis. RESULTS: 3-D kinematics detected clinically significant between-group differences. Children with hemiplegia were significantly slower than control children in time taken to complete tasks (P<.05) and achieved slower movement velocities (P<.05). Group differences in range of motion (ROM) occurred in all 3 tasks examined (hand to mouth, hand to head, reach). Children with hemiplegia had significantly less supination (P<.03) and shoulder flexion (P<.03) and increased compensatory trunk flexion (P<.01) compared with control data (hand-to-mouth task). The reach task highlighted restriction of elbow extension in children with hemiplegia (minimum elbow extension: hemiplegia, 24+/-18 degrees ; control, 3+/-7 degrees ). Completing tasks bilaterally did not alter performance of the tasks in children with hemiplegia. CONCLUSIONS: 3-D kinematics detected deficits in timing, ROM, and proximal compensatory strategies during upper-limb functional task performance in children with hemiplegia. Published 30 January 2006 in Arch Phys Med Rehabil, 87(2): 207-15.
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