Darren K Cheng1, Michelle Nelson2,3, Dina Brooks1,4,5, Nancy M Salbach1,4. 1. Rehabilitation Sciences Institute, University of Toronto, Toronto, Canada. 2. Lunenfeld-Tanenbaum Research Institute-Sinai Health System, Bridgepoint Collaboratory for Research and Innovation, Toronto, Canada. 3. Institute of Health Policy, Management and Evaluation, University of Toronto, Toronto, Canada. 4. Department of Physical Therapy, University of Toronto, Toronto, Canada. 5. School of Rehabilitation Science, McMaster University, Hamilton, Canada.
Abstract
Background: Stroke-specific protocols for the 10-meter and 6-minute walk tests that include instructions for people with aphasia, accessible walkway lengths, and allow provision of assistance to walk are needed to facilitate uptake in hospital settings. Objectives: To estimate the test-retest reliability, measurement error, and construct validity of stroke-specific protocols for the 10-meter walk test (10mWT), and 6-minute walk test conducted using a 15-meter walkway (6MWT15m) and 30-meter walkway (6MWT30m), in people post-stroke. Methods: A quantitative, cross-sectional study involving ambulatory people post-stroke was conducted. Results: Data were collected from 21 and 20 participants at baseline and retest, respectively, 1-3 days apart. Mean age was 61 years, median time post-stroke was 134 days, and 90% had experienced an ischemic stroke. Performance on the 10mWT, 6MWT15m, and 6MWT30m across sessions yielded intraclass correlation coefficient (ICC2, 1) estimates of test-retest reliability of 0.83, 0.97, 0.95, respectively, and minimal detectable change values at the 95% confidence level of 0.40m/s, 44.0m, and 67.5m, respectively. Pearson correlation coefficients were 0.80-0.95 (p < .001) between results on all three walk tests and 0.27-0.48 (p < .25) between walk test results and strength subscale scores on the Stroke Impact Scale.Conclusions: Findings showed excellent test-retest reliability; measurement error values similar to current literature; and support for construct validity of the 10mWT, 6MWT15m, and 6MWT30m. Due to the shorter walkway, the 6MWT15m may be more feasible to implement than the 6MWT30m in hospital settings. A larger sample with more severe deficits is required to improve generalizability.
Background: Stroke-specific protocols for the 10-meter and 6-minute walk tests that include instructions for people with aphasia, accessible walkway lengths, and allow provision of assistance to walk are needed to facilitate uptake in hospital settings. Objectives: To estimate the test-retest reliability, measurement error, and construct validity of stroke-specific protocols for the 10-meter walk test (10mWT), and 6-minute walk test conducted using a 15-meter walkway (6MWT15m) and 30-meter walkway (6MWT30m), in people post-stroke. Methods: A quantitative, cross-sectional study involving ambulatory people post-stroke was conducted. Results: Data were collected from 21 and 20 participants at baseline and retest, respectively, 1-3 days apart. Mean age was 61 years, median time post-stroke was 134 days, and 90% had experienced an ischemic stroke. Performance on the 10mWT, 6MWT15m, and 6MWT30m across sessions yielded intraclass correlation coefficient (ICC2, 1) estimates of test-retest reliability of 0.83, 0.97, 0.95, respectively, and minimal detectable change values at the 95% confidence level of 0.40m/s, 44.0m, and 67.5m, respectively. Pearson correlation coefficients were 0.80-0.95 (p < .001) between results on all three walk tests and 0.27-0.48 (p < .25) between walk test results and strength subscale scores on the Stroke Impact Scale.Conclusions: Findings showed excellent test-retest reliability; measurement error values similar to current literature; and support for construct validity of the 10mWT, 6MWT15m, and 6MWT30m. Due to the shorter walkway, the 6MWT15m may be more feasible to implement than the 6MWT30m in hospital settings. A larger sample with more severe deficits is required to improve generalizability.