Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
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Associations between Proprioceptive Neural Pathway Structural Connectivity and Balance in People with Multiple SclerosisThe Balance Evaluation Systems Test (BESTest) to differentiate balance deficitsRobot-assisted vs. sensory integration training in treating gait and balance dysfunctions in patients with multiple sclerosis: a randomized controlled trial.Stabilometric assessment of context dependent balance recovery in persons with multiple sclerosis: a randomized controlled studyMobility, balance and falls in persons with multiple sclerosis.Movement strategies for maintaining standing balance during arm tracking in people with multiple sclerosis.Variability in postural control with and without balance-based torso- weighting in people with multiple sclerosis and healthy controls.The impact of dynamic balance measures on walking performance in multiple sclerosis.Intention tremor and deficits of sensory feedback control in multiple sclerosis: a pilot studyDrawing on related knowledge to advance multiple sclerosis falls-prevention researchPostural response latencies are related to balance control during standing and walking in patients with multiple sclerosis.Falls in people with MS--an individual data meta-analysis from studies from Australia, Sweden, United Kingdom and the United StatesAssociation of Postural Sway with Disability Status and Cerebellar Dysfunction in People with Multiple Sclerosis: A Preliminary Study.Functional connectivity underlying postural motor adaptation in people with multiple sclerosis.Static posturography across the EDSS scale in people with multiple sclerosis: a cross sectional studyStatic Posturography and Falls According to Pyramidal, Sensory and Cerebellar Functional Systems in People with Multiple Sclerosis.Stride-Time Variability and Fall Risk in Persons with Multiple Sclerosis.A comparison of linear and nonlinear stability parameters in different clinical forms of multiple sclerosisImproving outcomes in multiple sclerosis through early diagnosis and effective management.Characterization of Compensatory Stepping in People With Multiple Sclerosis.Body-worn motion sensors detect balance and gait deficits in people with multiple sclerosis who have normal walking speed.The clinical relevance of force platform measures in multiple sclerosis: a review.Supraspinal control of automatic postural responses in people with multiple sclerosisSpinal cord tract diffusion tensor imaging reveals disability substrate in demyelinating disease.Sensorimotor dysfunction in multiple sclerosis and column-specific magnetization transfer-imaging abnormalities in the spinal cordPredicting falls in people with multiple sclerosis: fall history is as accurate as more complex measures.Time perception impairs sensory-motor integration in Parkinson's disease.Proprioception and motor control in Parkinson's disease.Accelerometry reveals differences in gait variability between patients with multiple sclerosis and healthy controlsStrategies used by individuals with multiple sclerosis and with mild disability to maintain dynamic stability during a steering task.Screening for balance disorders in mildly affected multiple sclerosis patients.Mechanisms of postural instability in hereditary spastic paraplegia.Dynamic margin of stability during gait is altered in persons with multiple sclerosis.Dynamic balance is related to physiological impairments in persons with multiple sclerosis.Human proprioceptive adaptations during states of height-induced fear and anxiety.Validity of the Instrumented Push and Release Test to Quantify Postural Responses in Persons With Multiple Sclerosis.Trunk sway in mildly disabled multiple sclerosis patients with and without balance impairment.Comparison of upright balance in stroke, Parkinson and multiple sclerosis.The relationship between trunk and foot acceleration variability during walking shows minor changes in persons with multiple sclerosis.Postural Motor Learning Deficits in People With MS in Spatial but Not Temporal Control of Center of Mass.
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Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
@en
Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
@nl
type
label
Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
@en
Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
@nl
prefLabel
Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
@en
Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
@nl
P2093
P2860
P1476
Imbalance in multiple sclerosis: a result of slowed spinal somatosensory conduction.
@en
P2093
Dennis Bourdette
Fay B Horak
Michelle H Cameron
Robert R Herndon
P2860
P304
P356
10.1080/08990220802131127
P577
2008-01-01T00:00:00Z