Lois Deming Hedman scite author profile

Recent studies have provided evidence of the widespread incidence of sensory dysfunction following stroke. The importance of these findings lies in the association between sensory loss poststroke and poorer outcomes in motor capacity, functional abilities, length of inpatient stay, and quality of life. Since literature suggests that clinicians can use information about clients' sensory status to predict rehabilitation outcomes and select appropriate interventions, the accuracy of somatosensory assessment is extremely clinically relevant. However, many of the clinical tests that are commonly used to examine sensation have not been found to be valid or reliable. Emerging evidence supports the efficacy of several interventions that target the sensory systems. This article reviews the incidence, significance, examination, and interventions for sensory dysfunction following stroke and summarizes the important characteristics of interventions directed at somatosensation.

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Lateral Stability During Forward-Induced Stepping for Dynamic Balance Recovery in Young and Older Adults

Rogers¹,

Hedman²,

Johnson³

et al. 2001

The Journals of Gerontology Series A: Biological Sciences and M

137

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During forward-induced protective stepping, otherwise healthy older adults who had experienced falls showed particular differences in their control of lateral body motion that were not attributable to changes in anticipatory postural mechanisms. Aging changes in controlling lateral body motion during protective stepping appear to involve factors that intervene between the first-step liftoff and foot contact and/or adaptations in stepping patterns related to prior planning.

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Afferent stimulation provided by glove electrode during task-specific arm exercise following stroke

2012

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Step Training Improves the Speed of Voluntary Step Initiation in Aging

Rogers¹,

Johnson²,

Martinez³

et al. 2003

The Journals of Gerontology Series A: Biological Sciences and M

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A 3-week period of either voluntary or waist-pull-induced step training reduced step initiation time in older and younger adults. Moreover, compared with voluntary step practice, induced step training resulted in a significantly greater improvement in reaction time stepping for an auditory transfer cue task. At least in the short term, such step training has the potential to help older adults perform more like younger adults in their step initiation timing.

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Thresholds for Inducing Protective Stepping Responses to External Perturbations of Human Standing

Mille

Rogers

Martinez

et al. 2003

Journal of Neurophysiology

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. Thresholds for inducing protective stepping responses to external perturbations of human standing. J Neurophysiol 90: 666 -674, 2003. First published April 23, 2003 10.1152/jn.00974.2002. Standing subjects were unexpectedly pulled forward to identify a threshold boundary that evokes stepping in terms of the size of the pull relative to the base of support (BoS). Performances in a range of sensorimotor tests were correlated with the threshold boundary parameters. Younger and older subjects were studied to identify age-related changes in stepping and the threshold boundaries. The threshold boundary had a forward limit (T L ) that, when crossed, always made subjects step no matter how slowly they were pulled. As velocity increased, the threshold position that produced a step shifted nearer to the ankles. Eventually a pull velocity was reached above which velocity had no further effect and a position threshold (T H ) was identified behind which subjects never stepped. Thus the position threshold boundary for stepping is a posterior-going sigmoidal function of perturbation velocity. Older subjects stepped more than the young (69% vs. 40% of trials). For the older subjects, T L (91% vs. 107% BoS) and T H (59% vs. 72% BoS) were closer to the ankles, and the transition between T L and T H occurred at lower velocities (96% vs. 121% BoS.s Ϫ1 ). Across the entire study population many sensorimotor factors were associated with T L and T H . However, these associations were not present when age was removed as a factor. Thus, although the older subjects use protective stepping more often, this cannot be attributed directly to the sensorimotor factors tested here. It can be explained by stepping as a triggered response to the perturbation event rather than later sensory input about body movement.

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