Evidence for reticulospinal contributions to coordinated finger movements in humans.
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Interactions between stretch and startle reflexes produce task-appropriate rapid postural reactions.Fractionation of muscle activity in rapid responses to startling cuesDifferent Effects of Startling Acoustic Stimuli (SAS) on TMS-Induced Responses at Rest and during Sustained Voluntary Contraction.Startling acoustic stimuli can evoke fast hand extension movements in stroke survivors.Practice reduces task relevant variance modulation and forms nominal trajectory.A broadband acoustic stimulus is more likely than a pure tone to elicit a startle reflex and prepared movements.Deficits in startle-evoked arm movements increase with impairment following strokeCortical involvement in the StartReact effect.Responses to startling acoustic stimuli indicate that movement-related activation is constant prior to action: a replication with an alternate interpretationStartReact effects support different pathophysiological mechanisms underlying freezing of gait and postural instability in Parkinson's disease.Startle evoked movement is delayed in older adults: implications for brainstem processing in the elderly.Etiology of impaired selective motor control: emerging evidence and its implications for research and treatment in cerebral palsy.Cervical dystonia: a disorder of the midbrain network for covert attentional orientingContribution of the Cerebellum in Cue-Dependent Force Changes During an Isometric Precision Grip TaskTriggering prepared actions by sudden sounds: reassessing the evidence for a single mechanism.Enhanced reticulospinal output in patients with (REEP1) hereditary spastic paraplegia type 31.Interhemispheric Inhibition Measurement Reliability in Stroke: A Pilot Study.The Reticulospinal Pathway Does Not Increase Its Contribution to the Strength of Contralesional Muscles in Stroke Survivors as Compared to Ipsilesional Side or Healthy Controls.Reticulospinal Contributions to Gross Hand Function after Human Spinal Cord Injury.Cortical and reticular contributions to human precision and power grip.Reduced motor preparation during dual-task performance: evidence from startle.Response preparation and execution during intentional bimanual pattern switching.Motor cortex is required for learning but not for executing a motor skill.Corticobulbar projections from distinct motor cortical areas to the reticular formation in macaque monkeys.The Impact of Shoulder Abduction Loading on Volitional Hand Opening and Grasping in Chronic Hemiparetic Stroke.Evidence for startle as a measurable behavioral indicator of motor learning.StartReact during gait initiation reveals differential control of muscle activation and inhibition in patients with corticospinal degenerationChanges of motor corticobulbar projections following different lesion types affecting the central nervous system in adult macaque monkeys
P2860
Q26823813-A020A103-D378-4357-BF60-3F26275F69FBQ30359068-B364C1FA-8E51-4985-A1C7-D97C9DD9E022Q30376185-474654CB-C820-492C-A349-FA13C35E8F1DQ30394657-488921DA-35B3-4D2C-B139-5C78A636A8B3Q30396341-5C68E10E-CF77-41D0-84ED-380CF18565C9Q30403015-B7AFD3E3-B106-4F93-AB54-ECC827653F8EQ30405628-F5ADDF88-DCF5-462F-A44F-B46CF46BDA0EQ30409830-D6681E54-0F9A-4467-BFAE-EEC79242EF59Q30414072-1CF62118-ACB4-4517-A3E9-67E42149110BQ30414951-CF0A847F-BB4E-44EB-AA78-D63ED4B943D8Q30424709-38D5B20F-BB49-4C72-8DA9-C3BB5A4005BCQ30720819-B5487D63-428C-47E9-91BD-F084A80C3D7EQ33563790-9E0DA548-5D59-49B2-9EBF-FF5B69BB9E7AQ37043139-DD0E822F-7B13-4DB5-A87B-63F5D1DC360FQ38628052-809FDCBC-23EB-46B2-9EF1-612A8DF815A1Q42861315-F4CD034F-FC82-4277-BAD3-13D40AA37BC8Q45809855-D0B91452-E11E-43C3-ABD7-618F406E2B6BQ47139272-3A3FCD3C-EAC9-4ECD-9A99-AD6644D99174Q47778097-6E93EED1-CD88-4012-89F7-0A5742B387BFQ48026409-3BEC129C-C379-447E-92C3-961A759E5FC0Q48152933-C07208FB-5C00-4DD4-B689-1E4C6E43161CQ48206928-20DE2CA3-0AF3-47A9-A39E-04541141C24FQ48221060-42CCCEE7-3E3C-4BE7-ADD9-175E6B0D7C4CQ48296733-AB13AE37-A8C4-4A81-8D66-21E7D7A52C5AQ52095003-28B363E6-A6F6-426C-8755-AB4772CA64A1Q53685400-482B60E1-0707-4212-B8C6-415703B136CEQ58696986-B1E787CD-31A8-40B7-8FBC-C498272AA908Q58772383-FE738F0A-BD9B-4E9C-8A16-ED304BD9D522
P2860
Evidence for reticulospinal contributions to coordinated finger movements in humans.
description
2013 nî lūn-bûn
@nan
2013 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Evidence for reticulospinal contributions to coordinated finger movements in humans.
@ast
Evidence for reticulospinal contributions to coordinated finger movements in humans.
@en
type
label
Evidence for reticulospinal contributions to coordinated finger movements in humans.
@ast
Evidence for reticulospinal contributions to coordinated finger movements in humans.
@en
prefLabel
Evidence for reticulospinal contributions to coordinated finger movements in humans.
@ast
Evidence for reticulospinal contributions to coordinated finger movements in humans.
@en
P2093
P2860
P356
P1476
Evidence for reticulospinal contributions to coordinated finger movements in humans.
@en
P2093
Claire Fletcher Honeycutt
Eric Jon Perreault
Michael Kharouta
P2860
P304
P356
10.1152/JN.00866.2012
P407
P577
2013-07-03T00:00:00Z