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dc.contributor.authorDawes, Helen
dc.date.accessioned2021-07-01T07:59:28Z
dc.date.available2021-07-01T07:59:28Z
dc.date.issued2021-04
dc.identifier.citationJohnny Collett, Melanie K Fleming, Daan Meester, Emad Al-Yahya, Derick T Wade , Andrea Dennis, Piergiorgio Salvan, Andrew Meaney, Janet Cockburn, Joanna Dawes, Heidi Johansen-Berg and Helen Dawes.Dual-task walking and automaticity after Stroke: Insights from a secondary analysis and imaging sub-study of a randomised controlled trial. Clinical Rehabilitation 1–12en
dc.identifier.urihttps://oxfordhealth-nhs.archive.knowledgearc.net/handle/123456789/861
dc.description.abstractAbstract Objective: To test the extent to which initial walking speed influences dual-task performance after walking intervention, hypothesising that slow walking speed affects automatic gait control, limiting executive resource availability. Design: A secondary analysis of a trial of dual-task (DT) and single-task (ST) walking interventions comparing those with good (walking speed ⩾0.8ms−1, n=21) and limited (walking speed <0.79ms−1, n=24) capacity at baseline. Setting: Community. Subjects: Adults six-months post stroke with walking impairment. Interventions: Twenty sessions of 30minutes treadmill walking over 10weeks with (DT) or without (ST) cognitive distraction. Good and limited groups were formed regardless of intervention received. Main measures: A two-minute walk with (DT) and without (ST) a cognitive distraction assessed walking. fNIRS measured prefrontal cortex activation during treadmill walking with (DT) and without (ST) Stroop and planning tasks and an fMRI sub-study used ankle-dorsiflexion to simulate walking. Results: ST walking improved in both groups (∆baseline: Good=8.9±13.4m, limited=5.3±8.9m, Group×time=P<0.151) but only the good walkers improved DT walking (∆baseline: Good=10.4±13.9m, limited=1.3±7.7m, Group×time=P<0.025). fNIRS indicated increased ispilesional prefrontal cortex activation during DT walking following intervention (P=0.021). fMRI revealed greater DT cost activation for limited walkers, and increased resting state connectivity of contralesional M1 with cortical areas associated with conscious gait control at baseline. After the intervention, resting state connectivity between ipsilesional M1 and bilateral superior parietal lobe, involved in integrating sensory and motor signals, increased in the good walkers compared with limited walkers. Conclusion: In individual who walk slowly it may be difficult to improve dual-task walking abilityen
dc.description.sponsorshipSupported by the NIHRen
dc.description.urihttps://doi.org/10.1177/02692155211017360en
dc.language.isoenen
dc.subjectStrokeen
dc.titleDual-task walking and automaticity after Stroke: Insights from a secondary analysis and imaging sub-study of a randomised controlled trialen
dc.typeArticleen
dc.contributor.disciplinePhysiotherapist


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