Functional electrical stimulation of ankle plantarflexor and dorsiflexor muscles: effects on poststroke gait. - Wikidata - wikimedia - TriplyDB

Functional electrical stimulation of ankle plantarflexor and dorsiflexor muscles: effects on poststroke gait.

Functional electrical stimulation of ankle plantarflexor and dorsiflexor muscles: effects on poststroke gait.

http://www.wikidata.org/entity/Q33682201

about

Time course of functional and biomechanical improvements during a gait training intervention in persons with chronic stroke A neuromechanics-based powered ankle exoskeleton to assist walking post-stroke: a feasibility study Muscle Synergies Facilitate Computational Prediction of Subject-Specific Walking Motions.Effects of unilateral real-time biofeedback on propulsive forces during gait.Football APP based on smart phone with FES in drop foot rehabilitation.Functional electrical stimulation to ankle dorsiflexor and plantarflexor using single foot switch in patients with hemiplegia from hemorrhagic stroke Changes in metabolic cost of transport following locomotor training poststroke The effectiveness of functional electrical stimulation based on a normal gait pattern on subjects with early stroke: a randomized controlled trial.Poststroke muscle architectural parameters of the tibialis anterior and the potential implications for rehabilitation of foot drop.Targeting paretic propulsion to improve poststroke walking function: a preliminary study.Impaired limb shortening following stroke: what's in a name?Minimal detectable change for gait variables collected during treadmill walking in individuals post-stroke.Combined effects of fast treadmill walking and functional electrical stimulation on post-stroke gait.Automatic identification of gait events using an instrumented sock Combining BMI Stimulation and Mathematical Modeling for Acute Stroke Recovery and Neural Repair Acceptability and potential effectiveness of a foot drop stimulator in children and adolescents with cerebral palsy.Changes in the activation and function of the ankle plantar flexor muscles due to gait retraining in chronic stroke survivors.Selective activation of the human tibial and common peroneal nerves with a flat interface nerve electrode A Personalized Multi-Channel FES Controller Based on Muscle Synergies to Support Gait Rehabilitation after Stroke The effects of functional electrical stimulation on muscle tone and stiffness of stroke patients.Rehabilitation of walking after stroke.Changes in Post-Stroke Gait Biomechanics Induced by One Session of Gait Training.Comparing the force ripple during asynchronous and conventional stimulation.Understanding compensatory strategies for muscle weakness during gait by simulating activation deficits seen post-stroke.Review of devices used in neuromuscular electrical stimulation for stroke rehabilitation.Reducing The Cost of Transport and Increasing Walking Distance After Stroke: A Randomized Controlled Trial on Fast Locomotor Training Combined With Functional Electrical Stimulation.A functional electrical stimulation system for human walking inspired by reflexive control principles.Effects of fast functional electrical stimulation gait training on mechanical recovery in poststroke gait.Turning-based treadmill training improves turning performance and gait symmetry after stroke.Alterations in Spectral Attributes of Surface Electromyograms after Utilization of a Foot Drop Stimulator during Post-Stroke Gait.Alterations in Spectral Attributes of Surface Electromyograms after Utilization of a Foot Drop Stimulator during Post-Stroke Gait.Single Session of Functional Electrical Stimulation-Assisted Walking Produces Corticomotor Symmetry Changes Related to Changes in Poststroke Walking Mechanics.Dual-afferent sensory input training for voluntary movement after stroke: A pilot randomized controlled study.Changes in spinal but not cortical excitability following combined electrical stimulation of the tibial nerve and voluntary plantar-flexion.A microcontroller platform for the rapid prototyping of functional electrical stimulation-based gait neuroprostheses.Wireless, accelerometry-triggered functional electrical stimulation of the peroneal nerve in spastic paresis: A randomized, controlled pilot study.Intensity- and Duration-Adaptive Functional Electrical Stimulation Using Fuzzy Logic Control and a Linear Model for Dropfoot Correction.Gait Training with Bilateral Rhythmic Auditory Stimulation in Stroke Patients: A Randomized Controlled Trial

P2860

Q30564243-A3E0066E-CB6B-4E23-9510-A0DC95FD64AE Q30630603-8A645FB0-D268-40A9-A49D-426EDDF6F46A Q30821426-799CD495-36DC-4FC0-8368-93C5196B4248 Q30854937-F6731B13-4FA5-49E3-BFEC-7609EF09B8D8 Q33452857-814F223B-9BB7-4AAF-B746-AC46DEB03A6C Q33882891-BFD403EC-2AFD-4F21-BA51-21F10998E111 Q33922355-7F6FB12F-CBD6-46FE-A6A2-128CDEC03B15 Q33993177-92A6221A-4DB9-4E99-9537-DB5EC6294781 Q34013928-B81EB6A8-C30B-4355-A4CD-C9516EB06C16 Q34159387-0E602AD4-7C00-4776-A74A-04E3808FA49F Q34351908-8C9F7D76-C9D3-4241-82EC-3F8865CEEF9E Q34590250-EE426259-8BB1-4AE7-AA5C-5AEB49DBE580 Q34590523-85E86A39-FBFE-45EE-9ADE-62D068FC6908 Q35040155-F35AD3E6-70AF-46F5-828C-08C9A163F0B8 Q35130257-E9485285-0631-4E03-8B5A-F7F2246D50C8 Q36301008-6C3410E6-8290-4FAE-8E9B-0B654D35E713 Q36591583-26802A07-A641-4409-9488-E3D92E2E46C3 Q37257419-524C4CFF-A5C4-4CAD-978F-91C4E93FFF3D Q37261200-D92A7DA0-E18B-40BC-9F86-0CCC1E1FA3C5 Q37676134-49B007AE-833B-463A-8C90-28C925F0CA70 Q38044700-A732269E-0D43-46C1-A6F9-AB11563976CF Q39066250-A84D2DAB-FCFC-4317-AEF9-62A18B69802A Q39259507-A9CFEE88-0DDB-4EBC-8FCE-19A08E1251D2 Q39829673-9E5F6AED-7E21-4CEB-9B31-A0EB39B6B470 Q41561460-F1E16AF3-EDCC-4A72-95B5-BB63E324050E Q41760880-0DD8DECD-B569-4D9B-BE98-C54A7B17CF74 Q42290457-6C443F00-BE2F-48B6-A38F-F26982348FB6 Q42721537-23658E6D-9877-4AFE-A8A6-BAA16BD2C4EA Q46957451-850DA26D-1257-4F07-BB07-97ECB574F4E3 Q47119806-7B6D38AA-D3AC-4110-B12F-AD8340474103 Q47682343-D97EB0BB-7BFB-47C3-91FB-11CA1FF98A1C Q48246923-468E8B62-BC6B-4008-AB4A-3C460AC8D623 Q48298955-B38E71C7-EF53-4437-B090-22201A661A8A Q48406921-349DA558-34D6-4598-A866-32A9435F813F Q50923944-5B408A23-13D6-4DF4-9159-8601A791A0E7 Q51803117-7B14A449-D485-43D3-9F64-4488B0AD8F91 Q55027426-8119872B-3AD3-4FC4-A202-52B93C50995E Q57166436-F76FB0C1-7159-440F-A68F-2BD6BEF14A20

P2860

Functional electrical stimulation of ankle plantarflexor and dorsiflexor muscles: effects on poststroke gait.

http://www.wikidata.org/entity/Q33682201

description

2009 nî lūn-bûn

@nan

2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

name

Functional electrical stimulat ...... s: effects on poststroke gait.

@ast

Functional electrical stimulat ...... s: effects on poststroke gait.

@en

type

label

Functional electrical stimulat ...... s: effects on poststroke gait.

@ast

Functional electrical stimulat ...... s: effects on poststroke gait.

@en

prefLabel

Functional electrical stimulat ...... s: effects on poststroke gait.

@ast

Functional electrical stimulat ...... s: effects on poststroke gait.

@en

P1433

Q33682201-DE566DBC-E67A-44F6-A50C-6E8C8BD9910A

P1476

Q33682201-655B071B-7D26-46CB-945B-5EE773690B00

P2093

Q33682201-0680CC38-9F66-4D5D-9816-8FB66205BA3E

Q33682201-14CF22FB-2611-462E-A506-04EBA8E53ADA

Q33682201-38E17C78-FA96-4AEB-8144-46DF0A8B2805

Q33682201-51C70DFD-4164-48DE-8097-87F33E319870

Q33682201-B6057E95-C8EF-46BC-BFD0-CC96D7F61C7C

Q33682201-C798F5D8-BE89-447C-A916-4C74E8C31942

Q33682201-F0DD1833-CB06-423C-8225-C9CDD63DAC12

P2860

Q33682201-0690E753-9859-4A90-9551-D93156AE7BEC

Q33682201-0D341DB1-C7B2-487F-91B6-2FFBCC3959CA

Q33682201-3C3153E6-EA2C-43FE-9012-B49F26E8E995

Q33682201-3DD9B62C-1237-43C7-9358-7D74325FF17C

Q33682201-4296EDC0-88AC-4542-8CE6-EEA726A3B0D9

Q33682201-4852D15F-C38C-4307-84D0-5CB0D23B46D8

Q33682201-52732CCE-A3A1-4C1C-B2FB-FBCD42A6A228

Q33682201-5E0D98CD-4B98-45CD-BCB8-B7071FAAC542

Q33682201-7CDB0DA5-2532-4A1E-AA7D-0EB15E52B924

Q33682201-92E59DFE-65F5-4B6D-BFBD-62CFFEB3711B

P304

Q33682201-8EDB9B83-9998-49A8-97AB-010F867F80F3

P31

Q33682201-69896ADF-6E9A-4F39-9891-312FDCFEAF1E

P356

Q33682201-C15D1BCA-3C79-47DF-A1DD-0FB147785A9E

P407

Q33682201-61143624-51AE-4B41-9990-E7CFBDA60D38

P433

Q33682201-155A8B86-684F-4DED-A95C-4E64A2B6BC95

P478

Q33682201-F8B54C2C-D744-4B91-B05C-B73C50126DB9

P577

Q33682201-78DF8AD7-B6AF-499B-899E-4600BEBD4E49

P698

Q33682201-C7E9C095-A446-4AE1-8946-40BA0CCB136A

P932

Q33682201-76087645-B2F2-447D-970D-EE78A2627DD2

P356

STROKEAHA.109.560375

P1433

P1476

Functional electrical stimulat ...... s: effects on poststroke gait.

@en

P2093

Angela Jancosko

http://www.w3.org/2001/XMLSchema#string

Darcy S Reisman

http://www.w3.org/2001/XMLSchema#string

Jill S Higginson

http://www.w3.org/2001/XMLSchema#string

Katherine S Rudolph

http://www.w3.org/2001/XMLSchema#string

Ramu Perumal

http://www.w3.org/2001/XMLSchema#string

Stuart A Binder-Macleod

http://www.w3.org/2001/XMLSchema#string

Trisha M Kesar

http://www.w3.org/2001/XMLSchema#string

P2860

Novel patterns of functional electrical stimulation have an immediate effect on dorsiflexor muscle function during gait for people poststroke.

Capacity to increase walking speed is limited by impaired hip and ankle power generation in lower functioning persons post-stroke

The orthotic effect of functional electrical stimulation on the improvement of walking in stroke patients with a dropped foot: a systematic review.

Catchlike property of skeletal muscle: recent findings and clinical implications.

Rehabilitation of gait speed after stroke: a critical review of intervention approaches.

The therapeutic effect of functional and transcutaneous electric stimulation on improving gait speed in stroke patients: a meta-analysis.

Gait deviations associated with post-stroke hemiparesis: improvement during treadmill walking using weight support, speed, support stiffness, and handrail hold.

Grasping the handrails during treadmill walking does not alter sagittal plane kinematics of walking.

Anterior-posterior ground reaction forces as a measure of paretic leg contribution in hemiparetic walking.

A randomized controlled trial of an implantable 2-channel peroneal nerve stimulator on walking speed and activity in poststroke hemiplegia.

P304

3821-3827

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1161/STROKEAHA.109.560375

http://www.w3.org/2001/XMLSchema#string

P407

P433

12

http://www.w3.org/2001/XMLSchema#string

P478

40

http://www.w3.org/2001/XMLSchema#string

P577

2009-10-15T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

19834018

http://www.w3.org/2001/XMLSchema#string

P932

2827197

http://www.w3.org/2001/XMLSchema#string