Proprio-tactile integration for kinesthetic perception: an fMRI study.
about
Hypotheses relating to the function of the claustrumIntegration of visual and tactile signals from the hand in the human brain: an FMRI studyImpairment of auditory-motor timing and compensatory reorganization after ventral premotor cortex stimulation.Focal dystonia in musicians: linking motor symptoms to somatosensory dysfunction.Specific brain activation patterns associated with two neuromuscular electrical stimulation protocols.Differential contributions of vision, touch and muscle proprioception to the coding of hand movements.Trying to move your unseen static arm modulates visually-evoked kinesthetic illusion.Brain Regions Associated to a Kinesthetic Illusion Evoked by Watching a Video of One's Own Moving Hand.Controlling Posture and Vergence Eye Movements in Quiet Stance: Effects of Thin Plantar Inserts.Optimal visuotactile integration for velocity discrimination of self-hand movementsNeural Correlates of Switching Attentional Focus during Finger Movements: An fMRI Study.Design and Evaluation of a Cable-Driven fMRI-Compatible Haptic Interface to Investigate Precision Grip Control.Disintegration of multisensory signals from the real hand reduces default limb self-attribution: an fMRI studyNovel magnetomechanical MR compatible vibrational device for producing kinesthetic illusion during fMRI.Localization of Impaired Kinesthetic Processing Post-stroke.The claustrum in review.Temporal cognition: a key ingredient of intelligent systemsMuscular responses appear to be associated with existence of kinesthetic perception during combination of tendon co-vibration and motor imagery.Illusory limb movements activate different brain networks than imposed limb movements: an ALE meta-analysis.'Eppur si move': The Association Between Electrophysiological and Psychophysical Signatures of Perceived Movement Illusions.The biology of skin wetness perception and its implications in manual function and for reproducing complex somatosensory signals in neuroprosthetics.The association of motor imagery and kinesthetic illusion prolongs the effect of transcranial direct current stimulation on corticospinal tract excitability.On the function of object cells in the claustrum-key components in information processing in the visual system?Leg muscle vibration modulates bodily self-consciousness: integration of proprioceptive, visual, and tactile signals.Illusory and veridical mapping of tactile objects in the primary somatosensory and posterior parietal cortex.Postural responses accompanying Achilles tendon vibration stimulation during various phases of sit-to-stand movement.Boosted activation of right inferior frontoparietal network: a basis for illusory movement awareness.Neglect and extinction in kinesthesia and thesesthesia: understanding proprioceptive inattention.Visuomotor effects of body part movements presented in the first-person perspective on imitative behavior.Ankle joint movements are encoded by both cutaneous and muscle afferents in humans.Contrasting effects of adaptation to a visuomotor rotation on explicit and implicit measures of sensory coupling.Evaluating the effects of delivering integrated kinesthetic and tactile cues to individuals with unilateral hemiparetic stroke during overground walking.Role of combined tactile and kinesthetic feedback in minimally invasive surgery.Role-Specific Brain Activations in Leaders and Followers During Joint Action
P2860
Q21090467-16D7689D-9FFE-4E2F-9C6A-198DE57DD36BQ24594664-F081FC8F-F054-43FB-955A-7B87EF95A581Q28743051-DD439183-BD74-47EC-80E4-5F73582B1685Q30559280-58C47739-3E86-4F4C-83FC-31FE4D3F3E23Q33758913-44305AFF-423A-48AD-957D-83E4F4B00B8DQ34693204-4D21FB63-9662-4662-8B8B-B29314E60D6EQ35069312-9F009FE0-CA75-4E6A-8267-F35F9218393FQ35749989-A6B60689-AFD7-4595-9D93-A0DCD29D6657Q35861198-8DF534C4-C772-4E29-9212-7F1651CE96B0Q36069397-2CEAC65F-C907-4CE5-81D9-86486BB5A4D5Q36636093-4E0C6BED-787B-45FF-91FD-6D190F9CE3F0Q36792130-0106D11F-15BF-4AA0-8555-059F7B0B7C8CQ37093865-891679D8-7935-437E-81C9-F60B0C267B62Q37288676-2073B52F-E526-4C61-AE63-5D05A8E91CF8Q37342560-7FDE31DF-872C-4FBC-B1B2-D8FC4DB45D97Q37697619-0E9EB648-C2C4-44DF-84C0-8FD9B3149BE7Q38506742-593C6522-ECAF-44AE-8A34-47C1F7647865Q38640014-0EAF6583-96C6-4EC6-8F5D-B777369334EDQ38643566-E814118E-C8B1-4A8A-A80A-0CD1212749B0Q38911308-2F9D3C53-091F-4443-9679-899CE7E748AAQ39103458-1F29AE99-6656-4CE5-827B-DB17222D7712Q40203287-6487606F-2EC4-4FC5-9D40-7F0628F1C994Q42733823-C0493D9B-47A5-4778-9B97-72C0A0CEE034Q43955277-5E5E8F8D-093F-4AE4-B283-9167154629A8Q45184739-A77808B3-7D17-43A6-823B-3401449211B8Q45189776-BBC032DC-3961-45FB-B6E4-7754418CE629Q45906512-E075FCB1-53E8-42E4-8CAB-40378C4F70C1Q46410010-C6F1D7B8-8C02-442D-99A6-2B813AFD0EC7Q48104804-F1A7A651-CB3B-49C2-BA81-E84BE996A59AQ48449808-171CAB4A-38D2-4661-93E0-7A988490AA10Q50067246-21062114-7A23-4357-9BDC-10D7D9B93722Q52585059-661B24E2-7CC9-435D-A391-B9763809053BQ53254501-86D1AA21-1FEF-435C-AB36-66345A13A031Q57817452-F31D8671-0DCE-40D5-A1A8-E1795F20C4FB
P2860
Proprio-tactile integration for kinesthetic perception: an fMRI study.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Proprio-tactile integration for kinesthetic perception: an fMRI study.
@en
Proprio-tactile integration for kinesthetic perception: an fMRI study.
@nl
type
label
Proprio-tactile integration for kinesthetic perception: an fMRI study.
@en
Proprio-tactile integration for kinesthetic perception: an fMRI study.
@nl
prefLabel
Proprio-tactile integration for kinesthetic perception: an fMRI study.
@en
Proprio-tactile integration for kinesthetic perception: an fMRI study.
@nl
P2093
P1433
P1476
Proprio-tactile integration for kinesthetic perception: an fMRI study
@en
P2093
P304
P356
10.1016/J.NEUROPSYCHOLOGIA.2007.10.002
P577
2007-10-10T00:00:00Z