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Recovery Potential After Acute StrokeConsiderations for the Optimization of Induced White Matter Injury Preclinical ModelsDevelopment and Characterization of a Macaque Model of Focal Internal Capsular InfarctsIsolated hand paresis: a case series.How useful is imaging in predicting outcomes in stroke rehabilitation?Training finger individuation with a mechatronic-virtual reality system leads to improved fine motor control post-stroke.Reorganization of brain function during force production after stroke: a systematic review of the literatureThe Intersection between Ocular and Manual Motor Control: Eye-Hand Coordination in Acquired Brain InjuryCompensatory motor control after stroke: an alternative joint strategy for object-dependent shaping of hand posture.Multi-finger coordination in healthy subjects and stroke patients: a mathematical modelling approach.Grip type and task goal modify reach-to-grasp performance in post-stroke hemiparesis.Compensatory role of the cortico-rubro-spinal tract in motor recovery after strokeImpaired anticipatory control of fingertip forces in patients with a pure motor or sensorimotor lacunar syndromeLasting pure-motor deficits after focal posterior internal capsule white-matter infarcts in rats.Structural damage to the corticospinal tract correlates with bilateral sensorimotor cortex reorganization in stroke patientsImaging motor recovery after stroke.White matter integrity is a stronger predictor of motor function than BOLD response in patients with stroke.Non-invasive mapping of corticofugal fibres from multiple motor areas--relevance to stroke recovery.Neuroscience findings on coordination of reaching to grasp an object: implications for research.Precision grip in congenital and acquired hemiparesis: similarities in impairments and implications for neurorehabilitation.Investigating structure and function in the healthy human brain: validity of acute versus chronic lesion-symptom mapping.Eye Control Deficits Coupled to Hand Control Deficits: Eye-Hand Incoordination in Chronic Cerebral Injury.The role of corticospinal tract damage in chronic motor recovery and neurorehabilitation: a pilot study.Corticospinal tract integrity and lesion volume play different roles in chronic hemiparesis and its improvement through motor practice.Effects of early versus late rehabilitative training on manual dexterity after corticospinal tract lesion in macaque monkeys.Effects of motor training on the recovery of manual dexterity after primary motor cortex lesion in macaque monkeys.Clinical findings and white matter abnormalities seen on diffusion tensor imaging in adolescents with very low birth weight.Localization of orofacial representation in the corona radiata, internal capsule and cerebral peduncle in Macaca mulatta.Functional classification of grasp strategies used by hemiplegic patients.Finger-thumb coupling contributes to exaggerated thumb flexion in stroke survivors.Anticipation in Object Manipulation: Behavioral and Neural Correlates.Principles of Motor Recovery After Neurological Injury Based on a Motor Control Theory.Enhanced Motor Recovery After Stroke With Combined Cortical Stimulation and Rehabilitative Training Is Dependent on Infarct Location.Predicting recovery of dextrous hand function in acute stroke.Long term motor function after neonatal stroke: Lesion localization above all.Force control deficits in chronic stroke: grip formation and release phases.Kinematic analysis of a functional and sequential bimanual task in patients with left hemiparesis: intra-limb and interlimb coordination.
P2860
Q26776144-9A748701-CA47-492A-8B6E-BA07C8964C9CQ26796210-97084471-20CA-4F28-9836-64245A2CB0E0Q27348614-FA0B1C0E-BDDA-44D4-AC94-30C7D1A3A08DQ30539876-9EA43A30-0DC8-4947-B15D-16935EA692BBQ30583874-8016158A-9A5B-44DC-A610-41E30510CA78Q30615151-7BFFC33D-7F5F-4C38-B884-7D9DFCAD8979Q33415414-2C7C5B07-69F2-484C-A599-DE4D3F0F0ADBQ33747390-7AAA1B91-A9F2-4AC7-9DA2-2C5C4948C227Q33923544-CAC7A411-8A7B-4CD9-BC4C-9EAA9A8ED3CCQ35042197-82C280CF-B1AE-40BE-9E1F-0BBA18B757E9Q35981391-6A7AD421-E7EB-44CE-8DF9-BD2F8D581373Q36146907-E70EFAD3-7405-46E0-B147-AC7364A3E635Q36168418-2282551B-2797-4CCB-BDA0-FEF6F157E8BDQ36267248-4393D1FB-7105-4A27-AFF7-B3E6411E6379Q36485125-A5A8A0D9-78CF-4C7A-A0FE-FF3C9E469FAFQ36608817-AD2E2856-8AE6-452B-8116-6420209AC701Q36630385-5B926D23-E037-46E6-842D-29FC2A720F1CQ37031608-715F8B36-1B0C-4A2B-BF0A-72017457C593Q38097418-277E1F33-28BA-4C08-895F-2A2DD10D1A68Q38234898-1535754A-452E-4771-9551-3DE02C7B5156Q39222179-9ECA33C3-2FD6-495F-A4B6-26070B760268Q41027672-78B78141-1322-41F9-87AF-069B4F8DCEF5Q43048103-BC6FB546-53F7-44B3-B324-FB5D211E2B16Q45331927-2571BBFC-1EB3-4296-B934-9C9E174C5838Q46073146-0587899B-7668-4A5F-BFBD-8A7EA79C029FQ46840738-3261C86E-116F-445C-8D41-B0563D0D89CEQ47297997-8F80D8F7-B6D5-439F-B1B7-FF78D44FFC88Q48181295-EEB91092-C68B-45B9-8E0F-1A1C27A77C85Q48324411-46B3FBB0-509E-42E1-94E9-74D4B125CF9EQ48326410-09A6F5B4-C428-49A6-9F16-D03E77503656Q48377496-5437ACA8-2813-40B7-9ADC-BE98919069B5Q48716968-4E70584A-1416-4E91-B48C-15D960FC1B91Q49068934-DB752C1D-ADCB-4FD0-9077-EB905192E718Q49110702-04D533BA-559A-4F01-B0C5-766E2DF7C2A3Q50552357-4D202C11-F746-4AA5-BBFD-28CE0918CF6FQ50684063-112F9EB3-F63C-44A9-843E-7AC49C57A9F1Q52590535-3C9BC451-82AC-4DCD-8A0A-B1E5D9AF98D6
P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Hand coordination following capsular stroke.
@en
Hand coordination following capsular stroke.
@nl
type
label
Hand coordination following capsular stroke.
@en
Hand coordination following capsular stroke.
@nl
prefLabel
Hand coordination following capsular stroke.
@en
Hand coordination following capsular stroke.
@nl
P2093
P356
P1433
P1476
Hand coordination following capsular stroke.
@en
P2093
Achim Brossmann
Annika Frenzel
Florian Kopper
Henning Stolze
Michael Illert
Mukaddes Gölge
Roland Wenzelburger
Stephan Klebe
P356
10.1093/BRAIN/AWH317
P407
P577
2004-10-07T00:00:00Z