Control of grip force during restraint of an object held between finger and thumb: responses of cutaneous afferents from the digits.
about
Reactive control of precision grip does not depend on fast transcortical reflex pathways in X-linked Kallmann subjectsBotulinum neurotoxin treatment improves force regulation in writer's cramp.Predicting the timing of spikes evoked by tactile stimulation of the hand.Integration of sensory quanta in cuneate nucleus neurons in vivoHuman ability to discriminate direction of three-dimensional force stimuli applied to the finger pad.How Weight Affects the Perceived Spacing between the Thumb and Fingers during Grasping.Brain computer interface learning for systems based on electrocorticography and intracortical microelectrode arraysAdaptation of cortical activity to sustained pressure stimulation on the fingertipFast-adapting mechanoreceptors are important for force control in precision grip but not for sensorimotor memoryA feedback model explains the differential scaling of human postural responses to perturbation acceleration and velocity.Restoring the sense of touch with a prosthetic hand through a brain interface.Genetically identified spinal interneurons integrating tactile afferents for motor control.Sensory representation abnormalities that parallel focal hand dystonia in a primate model.Tactile feedback is an effective instrument for the training of grasping with a prosthesis at low- and medium-force levels.Multisensory components of rapid motor responses to fingertip loading.Carpal tunnel syndrome impairs index finger responses to unpredictable perturbations.Modulation of ongoing EMG by different classes of low-threshold mechanoreceptors in the human handAccommodation to depolarizing and hyperpolarizing currents in cutaneous afferents of the human median and sural nerves
P2860
Q24651033-3384559C-85DE-4AB5-B5D0-4FF25FBD1FB1Q30586630-4F10560F-6914-47A2-A20C-AA0849F33E5FQ34151464-8FED5A97-D86D-4044-B4A5-F16F9319BAF3Q34587005-0AB80BBE-BB23-40C8-9E21-DA4AE05A1E13Q34686332-6D2405AD-6CE5-451F-9AD3-46BEA759895AQ35634165-5D341948-DA3B-4402-BB00-0F94AF74904CQ35711152-D214A12C-9B05-46D3-9F54-C38DB74D74DAQ35826552-1EDF01FE-0AA1-4FE8-A8EE-3B2F51E23A3CQ37098024-D4B79AB6-8BB1-48EB-83B9-AE2FD275E1B3Q37221819-F9EF0564-82AA-405E-998E-FC4A0AE15F2BQ37318133-D359FD97-6F27-4C73-B526-20073C2215CBQ38601651-255EA199-DB42-4DC0-9310-4BFA07BF3799Q39213567-E8E922A3-EDDA-4D00-BAD8-A5F745587EF8Q40962694-09A5E573-4AFF-4ED6-8ECC-47CEEC5BA8ABQ47300339-2FF790EF-3621-41E4-AD0C-9312BFDFED83Q50945097-63419985-FE1C-4ABC-842E-F4C978AF6381Q56339296-8E2BAB65-1EEB-4C19-A476-240C7BEC45DBQ56772341-219CE6AA-EFDA-4D52-842E-74FEB1DD6FEF
P2860
Control of grip force during restraint of an object held between finger and thumb: responses of cutaneous afferents from the digits.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
Control of grip force during r ...... ous afferents from the digits.
@en
Control of grip force during r ...... ous afferents from the digits.
@nl
type
label
Control of grip force during r ...... ous afferents from the digits.
@en
Control of grip force during r ...... ous afferents from the digits.
@nl
prefLabel
Control of grip force during r ...... ous afferents from the digits.
@en
Control of grip force during r ...... ous afferents from the digits.
@nl
P1476
Control of grip force during r ...... ous afferents from the digits.
@en
P2093
C Häger-Ross
V G Macefield
P304
P577
1996-02-01T00:00:00Z