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Intention tremor and deficits of sensory feedback control in multiple sclerosis: A pilot study
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نویسنده
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heenan m. ,scheidt r.a. ,woo d. ,beardsley s.a.
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منبع
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journal of neuroengineering and rehabilitation - 2014 - دوره : 11 - شماره : 1
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چکیده
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Background: intention tremor and dysmetria are leading causes of upper extremity disability in multiple sclerosis (ms). the development of effective therapies to reduce tremor and dysmetria is hampered by insufficient understanding of how the distributed,multi-focal lesions associated with ms impact sensorimotor control in the brain. here we describe a systems-level approach to characterizing sensorimotor control and use this approach to examine how sensory and motor processes are differentially impacted by ms. methods: eight subjects with ms and eight age- and gender-matched healthy control subjects performed visually-guided flexion/extension tasks about the elbow to characterize a sensory feedback control model that includes three sensory feedback pathways (one for vision,another for proprioception and a third providing an internal prediction of the sensory consequences of action). the model allows us to characterize impairments in sensory feedback control that contributed to each ms subject's tremor. results: models derived from ms subject performance differed from those obtained for control subjects in two ways. first,subjects with ms exhibited markedly increased visual feedback delays,which were uncompensated by internal adaptive mechanisms; stabilization performance in individuals with the longest delays differed most from control subject performance. second,subjects with ms exhibited misestimates of arm dynamics in a way that was correlated with tremor power. subject-specific models accurately predicted kinematic performance in a reach and hold task for neurologically-intact control subjects while simulated performance of ms patients had shorter movement intervals and larger endpoint errors than actual subject responses. this difference between simulated and actual performance is consistent with a strategic compensatory trade-off of movement speed for endpoint accuracy. conclusions: our results suggest that tremor and dysmetria may be caused by limitations in the brain's ability to adapt sensory feedback mechanisms to compensate for increases in visual information processing time,as well as by errors in compensatory adaptations of internal estimates of arm dynamics. © 2014 heenan et al.; licensee biomed central.
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کلیدواژه
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Dysmetria; Intention tremor; Motor control; Multiple sclerosis; Neuromotor control; Sensorimotor
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آدرس
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department of biomedical engineering,marquette university,milwaukee,wi, United States, department of biomedical engineering,marquette university,milwaukee,wi,united states,physical medicine and rehabilitation,northwestern university feinberg,school of medicine,chicago,il,united states,department of neurology,medical college of wisconsin,milwaukee,wi,united states,clinical and translational science institute,medical college of wisconsin,milwaukee,wi, United States, department of neurology,medical college of wisconsin,milwaukee,wi,united states,department of neurology,fairfield healthcare professionals neurology,lancaster,oh, United States, department of biomedical engineering,marquette university,milwaukee,wi,united states,clinical and translational science institute,medical college of wisconsin,milwaukee,wi,united states,department of biomedical engineering,boston university,boston,ma, United States
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Authors
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