Dissociating timing and coordination as functions of the cerebellum
about
Context-Dependent Neural Activation: Internally and Externally Guided Rhythmic Lower Limb Movement in Individuals With and Without Neurodegenerative DiseaseTemporal structure of motor variability is dynamically regulated and predicts motor learning ability.Consensus paper: roles of the cerebellum in motor control--the diversity of ideas on cerebellar involvement in movement.Cerebellar motor function in spina bifida meningomyelocele.Disruption of state estimation in the human lateral cerebellum.The binding of learning to action in motor adaptation.Neurological principles and rehabilitation of action disorders: common clinical deficits.Linear hypergeneralization of learned dynamics across movement speeds reveals anisotropic, gain-encoding primitives for motor adaptation.Contralateral manual compensation for velocity-dependent force perturbations.Processing of multi-dimensional sensorimotor information in the spinal and cerebellar neuronal circuitry: a new hypothesis.Priors engaged in long-latency responses to mechanical perturbations suggest a rapid update in state estimation.State space analysis of timing: exploiting task redundancy to reduce sensitivity to timing.Goal-dependent modulation of the long-latency stretch response at the shoulder, elbow, and wristSpecificity of inferior olive response to stimulus timing.Acquisition of internal models of motor tasks in children with autism.Discrete gait characteristics are associated with m.3243A>G and m.8344A>G variants of mitochondrial disease and its pathological consequences.The coordination of movement: optimal feedback control and beyond.Moving, sensing and learning with cerebellar damage.Open questions in computational motor control.Does the cerebellum initiate movement?From cerebellar texture to movement optimization.Encoding Temporal Features of Skilled Movements-What, Whether and How?New symmetry of intended curved reaches.Temporal specificity of the initial adaptive response in motor adaptation.Minimizing endpoint variability through reinforcement learning during reaching movements involving shoulder, elbow and wrist.Occlusal traits in developmental dyslexia: a preliminary study.Acute physical activity and delayed attention in primary school students.The absence or temporal offset of visual feedback does not influence adaptation to novel movement dynamics.Limb motion dictates how motor learning arises from arbitrary environmental dynamics.Vestibular nuclei and cerebellum put visual gravitational motion in context.State-Based Delay Representation and Its Transfer from a Game of Pong to Reaching and Tracking.Representing delayed force feedback as a combination of current and delayed states.Effects of Visual Error Timing on Smooth Pursuit Gain Adaptation in Humans.Rhythmic movements are larger and faster but with the same frequency on removal of visual feedback.Skilled throwers use physics to time ball release to the nearest millisecond.Gait impairment precedes clinical symptoms in spinocerebellar ataxia type 6.Integration of speed and time for estimating time to contact.A model of temporal scaling correctly predicts that motor timing improves with speedNeuroscientific Investigations of Musical Rhythm: Recent Advances and Future Challenges
P2860
Q26772365-D67792A8-C918-431E-9F24-AFFC20357ED3Q28647120-FD317897-3D6E-494C-957C-D1D84F73DBEAQ30417234-F33CF313-7AA8-4C63-827C-48C0F1A48EE1Q30472488-573FA725-1304-485F-BB4C-B135347F1F99Q30497054-02ABDB56-EEE4-4FF0-9781-AF50869BD951Q33951911-441594FB-D342-4212-B6A1-7407AF1A5196Q34187388-628BFCBE-7FAF-47A8-B89F-8D36FEC8323EQ34502624-27BEEEC1-1089-460B-B7D4-04F621A2E894Q34544991-85831F68-8A5D-44B5-910F-50F381E0C1DCQ34629118-813AFB99-0F33-42D8-B37A-50A1023C1B42Q34961681-1B0D012F-2B42-4C50-8CC4-AD85FBD9E231Q35951213-46FD18E5-2FAB-4DC6-B09F-F3DA9F649AF5Q36390857-C09255E8-8758-4D20-A2E0-0D2D2DA7AA4FQ36893177-DE5BEC2E-6D7C-47F4-9B7B-0E7A05060F28Q36961042-78EAB134-3548-43EF-8941-B4ED4B1B499FQ37491407-F5121A49-65ED-4F48-83FD-A5B0D644CC44Q37652417-3E701E59-E554-4EAC-9502-24E9A0EBA449Q37898276-00DCAD85-C3FD-47B4-9B93-DCE5C5EC100DQ37940909-47E63F67-5CC7-4D83-990C-BCF03263BF0EQ38130484-1B2AEEE7-502D-4154-8F68-A2DA535C26F1Q38231028-6FEC02F1-CC3A-4471-9D66-EFECAFFA3296Q39062846-4E562FCA-59C9-47E2-B080-8B7CF31828D7Q40486315-92F637CF-D812-42F5-A2D7-9E650EB25469Q40968667-CF23C098-BD6F-4A00-A3C2-38E03AA18288Q41047788-14FFAEE7-1377-473D-BED7-8732D115A416Q42252757-6804259C-CD6B-427D-9F5B-2411E2FE3CD0Q43880473-B213F279-824D-4B00-AE94-8EF07D79E60FQ45065066-DC7A649B-5EC5-4D6A-A495-5B2A92D33FADQ45976364-2E8F915D-0706-47D7-8F6D-58BCC6B8A610Q46868111-AD944817-3374-4149-B3A4-9F296E3372A7Q47832932-5FE1CC02-2551-4BD4-8F28-ACF50C14A7A7Q47906240-C6836E35-0820-42F1-9722-DC9B60CD1819Q48594404-B6CCCC66-5022-40C7-9F5A-33102257F8F9Q48965248-3A1D3EEC-34A5-4647-AB86-677D0F7BE601Q49027490-C351EE77-AACA-4B3C-9E4A-503CC2EA081CQ54495447-2387C4E9-D8F8-4DE5-ACE8-E77A15F120D3Q55163195-80A7276A-CD42-4085-948A-C628CA1197C4Q58568532-AEE99136-5E80-4AFA-87F9-0D7129D169C0Q59297131-8BBA746A-B7E2-4055-82CD-9C1455D7FED6
P2860
Dissociating timing and coordination as functions of the cerebellum
description
2007 nî lūn-bûn
@nan
2007 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Dissociating timing and coordination as functions of the cerebellum
@ast
Dissociating timing and coordination as functions of the cerebellum
@en
type
label
Dissociating timing and coordination as functions of the cerebellum
@ast
Dissociating timing and coordination as functions of the cerebellum
@en
prefLabel
Dissociating timing and coordination as functions of the cerebellum
@ast
Dissociating timing and coordination as functions of the cerebellum
@en
P2860
P1476
Dissociating timing and coordination as functions of the cerebellum
@en
P2093
Reza Shadmehr
Sarah E Criscimagna-Hemminger
P2860
P304
P356
10.1523/JNEUROSCI.0061-07.2007
P407
P577
2007-06-01T00:00:00Z