Effect of dual tasking on intentional vs. reactive balance control in people with hemiparetic stroke

Subramaniam, Savitha; Hui-Chan, C.W.Y.; Bhatt, Tanvi

doi:10.1152/jn.00628.2013

Cited by 10 publications

(7 citation statements)

References 52 publications

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“…In contrast to our findings, previous studies examining the cognitive-motor interference of reactive balance have demonstrated that dual tasking affects the performance only on the cognitive task (motor-related cognitive interference) without affecting the reactive balance task (Brauer et al, 2002;Maki et al, 2001;Zettel et al, 2008). As most of these studies have examined the cognitive-motor interference using small magnitude perturbations, it is postulated that the individuals are able to rapidly switch attention to the reactive balance task, and maintain postural stability at the cost of the cognitive task performance when perturbing intensities are small (Brauer et al, 2002;Brown et al, 1999;Maki & McIlroy, 2007;Maki et al, 2001;Subramaniam, Hui-Chan, & Bhatt, 2014;Zettel et al, 2008).…”

Section: Discussionmentioning

confidence: 99%

Attentional Demands of Perturbation Evoked Compensatory Stepping Responses: Examining Cognitive-Motor Interference to Large Magnitude Forward Perturbations

Patel

Bhatt

2015

Journal of Motor Behavior

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The authors examined the cognitive-motor interference of reactive balance control under dual-task condition in young healthy adults. Sudden large forward perturbations were delivered in stance position with (dual-task) and without (single-task balance) a working memory task. This task was also performed in quiet stance (single-task cognition). Dual tasking significantly reduced postural stability and compensatory step length, and delayed the reaction time. The significant linear correlation between postural stability and compensatory step length present in the single-task balance condition was absent in the dual-task condition. Performance on the cognitive task also declined under the dual-task condition. Our results indicate a mutual cognitive-motor interference between the reactive balance and the working memory task suggesting a potential overlap between attentional resources allocated for these two tasks.

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Section: Discussionmentioning

confidence: 99%

Attentional Demands of Perturbation Evoked Compensatory Stepping Responses: Examining Cognitive-Motor Interference to Large Magnitude Forward Perturbations

Patel

Bhatt

2015

Journal of Motor Behavior

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“…Individuals in the SG took more time to perform the maze task as compared with the CG in most stages of the practice. This finding is interpreted as a consequence of the lesion in brain areas (e.g., the cerebral cortex) [52] that might negatively affect the planning and execution of motor tasks that requires spatial memory and organization [39]. It is well known that the ability to find the right way into a novel or familiar environment (such as in the maze task) is a multifactorial function [53].…”

Section: Discussionmentioning

confidence: 99%

Effect of Contextual Interference in the Practicing of a Computer Task in Individuals Poststroke

Moliterno

Bezerra

Pires

et al. 2020

BioMed Research International

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Objectives. Sensory and motor alterations resulting from stroke often impair the performance and learning of motor skills. The present study is aimed at investigating whether and how poststroke individuals and age- and sex-matched healthy controls benefit from a contextual interference effect on the practice of a maze task (i.e., constant vs. random practice) performed on the computer. Methods. Participants included 21 poststroke individuals and 21 healthy controls, matched by sex and age (30 to 80 years). Both groups were divided according to the type of the practice (constant or random) presented in the acquisition phase of the learning protocol. For comparison between the groups, types of practice, and blocks of attempts, the analysis of variance with Tukey’s post hoc test (p<0.05) was used. Results. Poststroke individuals presented longer movement times as compared with the control group. In addition, only poststroke individuals who performed the task with random practice showed improved performance at the transfer phase. Moreover, randomized practice enabled poststroke individuals to perform the transfer task similarly to individuals without any neurological impairment. Conclusion. The present findings indicated a significant effect of contextual interference of practice in poststroke individuals, suggesting that applying randomized training must be considered when designing rehabilitation protocols for this population.

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“…7 Nevertheless, traditional rehabilitation programs do not generally include DT as a therapeutic strategy during therapeutic training. 8 Studies examining postural control and balance activities following a stroke have reported that DT exercises substantially deteriorate both motor and cognitive components of balance control owing to cognitive-motor interference (CMI), [9][10][11] that is, a decline in the performance of one or both (cognitive and motor task) components, relative to the performance of each task component separately during DT performance. CMI also considerably affects gait parameters following stroke, such as decreased gait speed and increased stride duration.…”

Section: Three-dimensional Trainingmentioning

confidence: 99%

“…Studies examining postural control and balance activities following a stroke have reported that DT exercises substantially deteriorate both motor and cognitive components of balance control owing to cognitive–motor interference (CMI), 9 – 11 that is, a decline in the performance of one or both (cognitive and motor task) components, relative to the performance of each task component separately during DT performance.…”

Section: Introductionmentioning

confidence: 99%

Effects of intensive multiplanar trunk training coupled with dual-task exercises on balance, mobility, and fall risk in patients with stroke: a randomized controlled trial

et al. 2021

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Objective We determined whether an exercise regime comprising high-intensity training, multiplanar trunk movements, and dual-task practice could improve trunk control, balance, functional mobility, and reduce fall risk in patients with hemiplegic stroke. Methods In this randomized controlled trial, 74 patients (mean age 61.71 years) were randomly assigned to the experimental and comparison groups. Primary outcome was trunk impairment scale (TIS) scores. Secondary outcomes were scores on the Berg balance scale, 10-meter walk test, Timed-up-and-go test, timed-Up-Go–cognitive, and Stroke Impact Scale-16 to measure between-group changes from baseline. We used linear mixed modeling to identify changes over time within and between groups on each scale and whether changes persisted at 6- and 12-month follow-ups. Results We observed significantly increased mean TIS scores from baseline to 3 months post-treatment (7.74); the increased scores were maintained at 6- and 12-month follow-ups (8.60 and 8.43, respectively). In the experimental group, all secondary outcomes showed significant and clinically meaningful results. Fall risk between groups was significantly reduced at 6 and 12 months. Conclusions Intensive multiplanar trunk movements coupled with dual-task practice promoted trunk control, balance, and functional recovery in patients with stroke, reduced fall risk, and improved independent mobility. Trial registration: #IRCT20200127046275N1.

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Effect of dual tasking on intentional vs. reactive balance control in people with hemiparetic stroke

Cited by 10 publications

References 52 publications

Attentional Demands of Perturbation Evoked Compensatory Stepping Responses: Examining Cognitive-Motor Interference to Large Magnitude Forward Perturbations

Attentional Demands of Perturbation Evoked Compensatory Stepping Responses: Examining Cognitive-Motor Interference to Large Magnitude Forward Perturbations

Effect of Contextual Interference in the Practicing of a Computer Task in Individuals Poststroke

Effects of intensive multiplanar trunk training coupled with dual-task exercises on balance, mobility, and fall risk in patients with stroke: a randomized controlled trial

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