C G Canning1, L Ada, N O'Dwyer. 1. School of Physiotherapy, Faculty of Health Sciences, The University of Sydney, Lidcombe, NSW, Australia.
Abstract
OBJECTIVE: To examine weakness after stroke, in terms of both level and rate of torque generation. DESIGN: Descriptive. T tests for dependent and independent samples and Pearson's product moment correlation coefficients were performed. SETTING: A rehabilitation unit. PARTICIPANTS: Ten stroke subjects, aged 56 to 81 years, undergoing rehabilitation. Ten neurologically normal subjects aged 55 to 78 years were the controls. OUTCOME MEASURES: Peak isometric elbow flexor and extensor torque and time to 90% peak elbow flexor and extensor torque at 6 weeks and at 25 weeks after stroke. RESULTS: At 6 weeks after stroke, subjects were only half as strong and took two to three times longer to produce torque compared to controls (p < or = .05). By 25 weeks after stroke, significant improvements in peak torque (p < or = .02) and time to 90% peak flexor torque (p < or = .05) were seen so that values were within normal limits. CONCLUSION: Decreased rate of torque development compounds the problem of reduced peak torque, which may have significant implications for stroke patients, especially in situations where muscles are very weak or where force needs to be generated quickly.
OBJECTIVE: To examine weakness after stroke, in terms of both level and rate of torque generation. DESIGN: Descriptive. T tests for dependent and independent samples and Pearson's product moment correlation coefficients were performed. SETTING: A rehabilitation unit. PARTICIPANTS: Ten stroke subjects, aged 56 to 81 years, undergoing rehabilitation. Ten neurologically normal subjects aged 55 to 78 years were the controls. OUTCOME MEASURES: Peak isometric elbow flexor and extensor torque and time to 90% peak elbow flexor and extensor torque at 6 weeks and at 25 weeks after stroke. RESULTS: At 6 weeks after stroke, subjects were only half as strong and took two to three times longer to produce torque compared to controls (p < or = .05). By 25 weeks after stroke, significant improvements in peak torque (p < or = .02) and time to 90% peak flexor torque (p < or = .05) were seen so that values were within normal limits. CONCLUSION: Decreased rate of torque development compounds the problem of reduced peak torque, which may have significant implications for strokepatients, especially in situations where muscles are very weak or where force needs to be generated quickly.
Authors: H P Francis; D T Wade; L Turner-Stokes; R S Kingswell; C S Dott; E A Coxon Journal: J Neurol Neurosurg Psychiatry Date: 2004-11 Impact factor: 10.154
Authors: David T Pruitt; Ariel N Schmid; Lily J Kim; Caroline M Abe; Jenny L Trieu; Connie Choua; Seth A Hays; Michael P Kilgard; Robert L Rennaker Journal: J Neurotrauma Date: 2015-08-05 Impact factor: 5.269