Restoration of grasp following paralysis through brain-controlled stimulation of muscles
about
A Hebbian learning rule gives rise to mirror neurons and links them to control theoretic inverse models.Intracortical Brain-Machine Interfaces Advance Sensorimotor NeuroscienceCurrent Challenges Facing the Translation of Brain Computer Interfaces from Preclinical Trials to Use in Human PatientsOn the viability of implantable electrodes for the natural control of artificial limbs: review and discussionCreating new functional circuits for action via brain-machine interfacesDecoding methods for neural prostheses: where have we reached?A high performing brain-machine interface driven by low-frequency local field potentials alone and together with spikes.Decoding hindlimb movement for a brain machine interface after a complete spinal transectionA brain-spine interface alleviating gait deficits after spinal cord injury in primates.Implantable neurotechnologies: a review of integrated circuit neural amplifiersNeuroplasticity subserving the operation of brain-machine interfaces"Messing with the mind": evolutionary challenges to human brain augmentationPre-frontal control of closed-loop limbic neurostimulation by rodents using a brain-computer interfaceHow thoughts give rise to action - conscious motor intention increases the excitability of target-specific motor circuitsIntrafascicular stimulation of monkey arm nerves evokes coordinated grasp and sensory responses.A brain-to-brain interface for real-time sharing of sensorimotor information.High-performance neuroprosthetic control by an individual with tetraplegia.Closed-loop control of spinal cord stimulation to restore hand function after paralysis.A confidence metric for using neurobiological feedback in actor-critic reinforcement learning based brain-machine interfacesA high-performance keyboard neural prosthesis enabled by task optimization.Advancing brain-machine interfaces: moving beyond linear state space modelsTeaching brain-machine interfaces as an alternative paradigm to neuroprosthetics control.Rapid control and feedback rates enhance neuroprosthetic controlDecoding of the spike timing of primary afferents during voluntary arm movements in monkeysLong term, stable brain machine interface performance using local field potentials and multiunit spikes.Multimodal decoding and congruent sensory information enhance reaching performance in subjects with cervical spinal cord injury.Multi-muscle FES force control of the human arm for arbitrary goals.Reducing the Impact of Shoulder Abduction Loading on the Classification of Hand Opening and Grasping in Individuals with Poststroke Flexion Synergy.Cortex-dependent recovery of unassisted hindlimb locomotion after complete spinal cord injury in adult rats.Intention estimation in brain-machine interfaces.Comparing temporal aspects of visual, tactile, and microstimulation feedback for motor controlPrimary motor cortical discharge during force field adaptation reflects muscle-like dynamicsA training platform for many-dimensional prosthetic devices using a virtual reality environment.A cortical-spinal prosthesis for targeted limb movement in paralysed primate avatars.Enhancing Nervous System Recovery through Neurobiologics, Neural Interface Training, and Neurorehabilitation.Joint cross-correlation analysis reveals complex, time-dependent functional relationship between cortical neurons and arm electromyogramsAdvances in neuroprosthetic learning and controlDegraded EEG decoding of wrist movements in absence of kinaesthetic feedback.Brain-controlled muscle stimulation for the restoration of motor function.The emergence of single neurons in clinical neurology.
P2860
Q21129463-AEA7CF58-C532-43A0-9FAB-F4C14F9131F0Q26738442-495B6A68-055C-4726-BEFC-EC57279A67EEQ26771529-CB4848A2-8A12-4C58-B07D-706F28F979A6Q26865297-7790DB5F-5C20-439A-8BC7-6B3C9A6F8FDBQ26998650-898AB4FF-E9CC-4D71-8B5F-10CD9E9543CCQ27002196-803454D9-3C37-4E30-A27D-0FD46B7589A9Q27308104-EABEDD77-CBDD-49B4-B340-008932CAA773Q27327252-34F82E64-7EDA-4E84-B724-E4F6AE31544EQ27890423-9B9EEB59-6EB0-4202-AD54-8C48EDAD5C40Q28073923-2DEAE40B-8348-4E22-B9DC-50CD0066E2F8Q28084691-BF4E42F9-7BCE-4604-8B05-F019673D24DBQ28655245-BF7FC0F7-0600-4C4C-9853-5671CCC15803Q30414431-0D6C87ED-46DB-4729-B58F-EF3076FE8BFCQ30444942-9F848083-583D-4533-979F-D1F24D010A38Q30532245-7177200B-E570-4908-B617-6735DBBC20A6Q30536903-A4EF3BC3-27DA-4FF7-A6EE-65CB1750B6C9Q30539491-2A33FB81-63CF-44FC-B634-5592109F70CCQ30578748-571C1B1A-10CD-4B43-AB17-842FC7DC6AAFQ30578828-A90B3F7D-A02C-43AC-8AA5-265B3DDB6945Q30647112-95026D7C-1A46-4954-8E46-474C3B435F2BQ30659149-EB4E9DA5-A592-4888-9F23-803E558D1123Q30664099-18AD8A5B-EBD0-4613-B996-6BE61213A2AAQ30834686-5F1200AB-0CA8-449A-AE1D-E7B31457E128Q33620137-5063BE44-CB25-4231-AC61-8AE74CEEBD3BQ33622393-8351B775-D422-4553-B506-0FDE20092FC1Q33658823-EF200FA1-AC04-487D-8AC6-6AD9E93A9541Q33666317-F36C6273-76D9-4EF5-9B71-DBC73EAD3184Q33855290-2CBDBE5E-3E71-464F-AA43-6CA523233989Q33879261-D8F06542-7FE7-410C-8421-0B45610832E2Q33926316-C1FD0413-098F-4EA2-AAC0-3A506B8FE304Q34142107-7FCBA292-1422-4EC0-A126-DAFEEDE11BE2Q34343636-93F2D2C8-6994-4EFF-8FD9-02580BD4225CQ34389531-D665807D-783C-40E9-AA7C-DC707C5514EBQ34405105-E5C26EC8-3C56-44F5-907F-C50236B88FFFQ34549120-2CB5ABCF-4F43-4B51-9136-91DA9C20BAA1Q34627069-5945801F-85A2-4BD7-81C9-E63CF8A5E28CQ34734832-68E29739-4F33-4FFC-BB99-7A24AD773056Q35035240-0394D0D1-F48E-48CE-8CF3-E20637DDAD63Q35547402-94539623-7EF2-4080-9C7A-D96618C20F1AQ35593737-38ED03E8-6DDC-42DC-9F67-ECF734467C90
P2860
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
description
2012 nî lūn-bûn
@nan
2012 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@ast
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@en
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@nl
type
label
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@ast
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@en
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@nl
prefLabel
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@ast
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@en
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@nl
P2093
P2860
P3181
P356
P1433
P1476
Restoration of grasp following paralysis through brain-controlled stimulation of muscles
@en
P2093
P2860
P2888
P304
P3181
P356
10.1038/NATURE10987
P407
P577
2012-05-17T00:00:00Z
P5875
P6179
1032194170