about
Restoration of sensorimotor functions after spinal cord injuryThe promotion of recovery through rehabilitation after acquired brain injury in childrenMolecular and cellular changes in the lumbar spinal cord following thoracic injury: regulation by treadmill locomotor trainingBrain stimulation: Neuromodulation as a potential treatment for motor recovery following traumatic brain injuryCombining Multiple Types of Motor Rehabilitation Enhances Skilled Forelimb Use Following Experimental Traumatic Brain Injury in RatsDifferences in muscle activity and temporal step parameters between Lokomat guided walking and treadmill walking in post-stroke hemiparetic patients and healthy walkers.Guest editorial: emergent themes from second annual symposium on regenerative rehabilitation, Pittsburgh, Pennsylvania.The Effects of Modified Constraint-Induced Movement Therapy in Acute Subcortical Cerebral InfarctionMajor unsolved points in adult neurogenesis: doors open on a translational future?Curiosity and cure: translational research strategies for neural repair-mediated rehabilitationCombining Brain-Computer Interfaces and Assistive Technologies: State-of-the-Art and Challenges.Aerobic exercise improves cognition and motor function poststroke.The effects of powered ankle-foot orthoses on joint kinematics and muscle activation during walking in individuals with incomplete spinal cord injuryExcitability properties of motor axons in adults with cerebral palsyPharmacological modulation of plasticity in the human motor cortex.Plasticity of connections underlying locomotor recovery after central and/or peripheral lesions in the adult mammalsBrain-computer interface technology as a tool to augment plasticity and outcomes for neurological rehabilitation.Epidural cortical stimulation and aphasia therapy.Spatio-temporal electrical stimuli shape behavior of an embodied cortical network in a goal-directed learning task.Activity-dependent plasticity in spinal cord injury.Neuromuscular stimulation after stroke: from technology to clinical deployment.Animal models of post-ischemic forced use rehabilitation: methods, considerations, and limitations.Non-invasive brain stimulation in neglect rehabilitation: an update.In the first 3 months after stroke is progressive resistance training safe and does it improve activity? A systematic review.Motor cortical stimulation promotes synaptic plasticity and behavioral improvements following sensorimotor cortex lesions.Predictors of effectiveness of multidisciplinary rehabilitation treatment on motor dysfunction in multiple sclerosis.Fractional anisotropy and mean diffusivity in the corpus callosum of patients with multiple sclerosis: the effect of physiotherapy.Remodeling of Neuronal Circuits After Reach Training in Chronic Capsular Stroke.Patient Engagement Is Related to Impairment Reduction During Digital Game-Based Therapy in Stroke.Effects of vestibular rehabilitation on multiple sclerosis-related fatigue and upright postural control: a randomized controlled trial.Robotic gait training in patients with impaired consciousness due to severe traumatic brain injury.Effects of hippotherapy on people with cerebral palsy from the users' perspective: a qualitative study.Restorative Neurology, Rehabilitation and Brain InjuryTailored balance exercises on people with multiple sclerosis: A pilot randomized, controlled study
P2860
Q26999051-CC94E1F8-04E6-4AF5-B20C-C14C56459BBAQ27012588-6011E3D5-E6EB-4D60-A326-ED4D68DABFF0Q27323020-49E6356C-00C3-4138-9806-978D501EB733Q28073809-8F3CD80A-E109-477A-82AF-DFF5F424B121Q30827139-7EB0D680-606C-47FE-9380-A6D42E9A6933Q33582062-B5730B17-4627-4AF0-A998-89998712FEF9Q33601627-CDC33AE8-9122-4BED-9CD7-6DB16D712F69Q33700790-A2F53540-EA4C-49B4-A03C-977135A44C24Q33735716-CA5264B3-DAFC-41D5-865D-609B2BF8F1B7Q33904296-10398E3B-EB7D-4953-B5EC-2C077071FA0AQ34151441-D0563BC1-8C70-4B91-AEF3-30C7447D0752Q34506563-75C3C83B-F4D4-4431-818F-4DC1846555C2Q34537683-837208E9-50F0-45CD-884A-F726B75C55E2Q35675829-D6C9479C-A6CA-4EB4-990C-C77542169C82Q36470509-F34519F5-007D-4807-9724-BB9F5E515082Q36581100-E74016F8-B45C-4C5D-AEF0-9BE8374BE82AQ36649394-600A5D5E-C71B-4FC2-9E80-276095E9A652Q36825374-98DF7208-7D24-4131-B1DA-A3EAA4839489Q36920157-30248A59-4BED-4EF6-80C3-FAEDDC37FC37Q36925569-9F8922D6-8CBA-4C9E-B53B-F3CD2DA9D856Q37432201-27F58AB3-E6B0-4B7E-BE3D-F051575339F7Q38076212-CAF42A1D-F0D7-4617-BAE9-AD69F2A7B33EQ38114880-F96E480B-4053-4667-91D9-9AA87E340215Q38808191-887BC4ED-E2A8-4466-81E9-10B0C17D70A2Q41942282-7179EBBD-B35C-4F87-B048-D96DA51572A8Q44765850-F2518686-41ED-4DF5-B3F7-B8A1C5EE3FAAQ44891248-45EF7BAB-B3C4-42CC-9873-A229FDE163C8Q48020537-378742C4-F904-41D9-B2B9-F32994D75B8CQ48113528-EFD179C6-D33A-4C50-BB6E-F8D536FE5D04Q48848151-D39DF6B8-751D-4E49-8B7A-AEA8D5296153Q48931921-5024F8D8-EBB4-43EA-B880-36464B67D919Q51936321-20B1C7C4-C7B7-4C78-B398-4C17AE2589FBQ57539380-B8BA2452-AE6E-48A6-804A-38DB95EB08FFQ57664189-2B38A552-62A5-439A-ABE8-A92F96FB1ED0
P2860
description
2004 nî lūn-bûn
@nan
2004 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Neurobiology of rehabilitation
@ast
Neurobiology of rehabilitation
@en
type
label
Neurobiology of rehabilitation
@ast
Neurobiology of rehabilitation
@en
prefLabel
Neurobiology of rehabilitation
@ast
Neurobiology of rehabilitation
@en
P2860
P356
P1476
Neurobiology of rehabilitation
@en
P2093
Bruce H Dobkin
P2860
P304
P356
10.1196/ANNALS.1315.024
P407
P577
2004-12-01T00:00:00Z