Proprioception and motor control in Parkinson's disease.
about
Preservation of function in Parkinson's disease: what's learning got to do with it?Neurologic Music Therapy Training for Mobility and Stability Rehabilitation with Parkinson's Disease - A Pilot StudyImpaired Limb Proprioception in Adults With Spasmodic DysphoniaPartnered Dancing to Improve Mobility for People With Parkinson's DiseaseThe effectiveness of proprioceptive training for improving motor function: a systematic review.The contribution of proprioceptive information to postural control in elderly and patients with Parkinson's disease with a history of falls.Effects of a balance-based exergaming intervention using the Kinect sensor on posture stability in individuals with Parkinson's disease: a single-blinded randomized controlled trialTactile/proprioceptive integration during arm localization is intact in individuals with Parkinson's disease.Scaling and coordination deficits during dynamic object manipulation in Parkinson's disease.A case report of thoracolumbar paraspinal myopathy as the cause of camptocormia in a patient with atypical parkinsonismPostural control in bipolar disorder: increased sway area and decreased dynamical complexity.Aging with HIV-1 Infection: Motor Functions, Cognition, and Attention--A Comparison with Parkinson's DiseaseVariability in cadence during forced cycling predicts motor improvement in individuals with Parkinson's disease.Motor deficits in schizophrenia quantified by nonlinear analysis of postural sway.Motor output variability, deafferentation, and putative deficits in kinesthetic reafference in Parkinson's diseaseA novel conceptual framework for balance training in Parkinson's disease-study protocol for a randomised controlled trial.Testing balance and fall risk in persons with Parkinson disease, an argument for ecologically valid testingAxial kinesthesia is impaired in Parkinson's disease: effects of levodopaSubthalamic nucleus deep brain stimulation does not improve visuo-motor impairment in Parkinson's diseaseReduced frequency of knowledge of results enhances learning in persons with Parkinson's diseaseWalking in circles: navigation deficits from Parkinson's disease but not from cerebellar ataxiaAnkle-Foot Orthoses: Proprioceptive Inputs and Balance ImplicationsPostural strategies assessed with inertial sensors in healthy and parkinsonian subjects.Improved Dynamic Postural Task Performance without Improvements in Postural Responses: The Blessing and the Curse of Dopamine ReplacementFreezing of gait is associated with a mismatch between motor imagery and motor execution in narrow doorways, not with failure to judge doorway passabilityImpaired endogenously evoked automated reaching in Parkinson's disease.Dynamic High-Cadence Cycling Improves Motor Symptoms in Parkinson's Disease.The Effects of Highly Challenging Balance Training in Elderly With Parkinson's Disease: A Randomized Controlled Trial.Development of Proprioceptive Acuity in Typically Developing Children: Normative Data on Forearm Position Sense.Toward Precision Psychiatry: Statistical Platform for the Personalized Characterization of Natural BehaviorsSensory aspects of movement disorders.Sequence Effect in Parkinson's Disease Is Related to Motor Energetic CostCamptocormia in Parkinson's Disease: A Muscle Disease Due to Dysregulated Proprioceptive Polysynaptic Reflex Arch.Reliable and Rapid Robotic Assessment of Wrist Proprioception Using a Gauge Position Matching ParadigmMaintaining balance against force perturbations: impaired mechanisms unresponsive to levodopa in Parkinson's disease.Reaching to proprioceptively defined targets in Parkinson's disease: effects of deep brain stimulation therapyThe Cognition of Maximal Reach Distance in Parkinson's Disease.Active inference and robot control: a case studyTime perception impairs sensory-motor integration in Parkinson's disease.Parkinson's disease patients show impaired corrective grasp control and eye-hand coupling when reaching to grasp virtual objects
P2860
Q26853387-25538250-87B2-4231-A09D-FB6A1FE8B288Q27316797-2018849E-4189-4ED2-8F9B-F8A198E29265Q30371158-060D49F7-8127-4EA4-9E89-B4FF5CB8BAE4Q30382799-5E1323A0-C2D2-4DE9-8309-1AF36887B8C1Q30418969-A499222D-B13E-4FBC-8315-F27DA49011B8Q30601341-3EB7C2B9-FFB6-497D-842F-B498F016DA72Q30804442-1E39F353-58CA-4386-B0DD-F5A1EA99B85AQ33624598-5DFB99E3-CE38-4C98-8114-87A69DBC0078Q33781498-FDE49990-FC88-4118-AAE4-BD3F53F01A9BQ33827294-7E75E0FA-FC48-4103-90CE-A4024C7BB059Q33911062-FD4E0066-75F3-42B3-AF2C-EDF8305188BFQ33920647-BFCB95A3-08D5-4C99-9BCE-B7505BC32501Q34069887-FD841042-56F8-4238-8180-4CF2781F86BCQ34369065-3229B993-2B2A-4F9F-9F30-437960AF4996Q34377411-1E34B04D-277F-405E-8663-08059DD139F7Q34423006-B2F831C3-B34A-4000-A490-38BE723B25CCQ34587803-B1221422-BBAF-4426-9482-0BB969EE3673Q34640956-79948B5C-1141-438D-A0B9-A89049392CD7Q34775648-75BBE133-1A67-4CDA-B0C7-E46258E0C614Q35157379-1D9FD45B-DF69-4080-A39C-E0C9F50C462CQ35165300-3E62ED76-A9C2-4670-A4C7-3A6AA0F39CBCQ35169663-345A32B9-7696-40E0-9A8B-C07B39493F5AQ35248019-80E377C3-4CD8-41B4-A29B-F729B8DBFD9AQ35608980-9271B0B5-B359-4E4D-9C1C-C8D07E765CE0Q35679606-EA7F9654-84AA-4C89-9909-5A3818340ECFQ35804003-D0E75725-FA03-4CE0-8B2F-439FE166F355Q36018225-A2892A39-FC61-44AC-BE26-23107CC0EEBAQ36092518-21A63EAC-6EE9-43A9-A963-AA1783A7486FQ36130966-CE436419-50BF-4B85-8364-6C3172F77340Q36528552-B927496F-D006-488E-A186-F846B35DB522Q36595746-D73CD3E1-1CFD-47C7-A762-6804F2716D4DQ36927929-83E39C13-B9C4-485A-95AE-1127AD36BBFAQ37022840-4E9C6291-AF9A-4823-A5F9-2F50D89A6A3AQ37048798-8C7AC521-09F6-4E85-A9B5-BCDB5CD5AD71Q37162689-0AFE259B-FFE9-4CE4-BE11-FB0999C7CD20Q37191208-3572A1CE-DF3D-451D-99C4-93534700B9A7Q37212624-BC3655E6-3017-446F-A680-4137E4FA1B23Q37304443-CE5571D7-083A-4E9A-9958-10F6C8F8571DQ37376838-7111F5E4-04FD-4754-A436-2EFD637CEA91Q37593750-B42229CD-E061-44CB-9825-D571E4DD8498
P2860
Proprioception and motor control in Parkinson's disease.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Proprioception and motor control in Parkinson's disease.
@en
Proprioception and motor control in Parkinson's disease.
@nl
type
label
Proprioception and motor control in Parkinson's disease.
@en
Proprioception and motor control in Parkinson's disease.
@nl
prefLabel
Proprioception and motor control in Parkinson's disease.
@en
Proprioception and motor control in Parkinson's disease.
@nl
P2093
P2860
P356
P1476
Proprioception and motor control in Parkinson's disease
@en
P2093
Daniel M Corcos
Howard Poizner
Jürgen Konczak
Mark Shapiro
Matthias Maschke
Paul Tuite
P2860
P304
P356
10.3200/35-09-002
P577
2009-11-01T00:00:00Z