Gait rehabilitation machines based on programmable footplates
about
Spinal cord injury: present and future therapeutic devices and prosthesesClinical application of a modular ankle robot for stroke rehabilitationPilot study of locomotion improvement using hybrid assistive limb in chronic stroke patientsEffect of explicit visual feedback distortion on human gait.Effects of robot assisted gait training in progressive supranuclear palsy (PSP): a preliminary reportRobotics in Lower-Limb Rehabilitation after StrokeRecent trends in robot-assisted therapy environments to improve real-life functional performance after stroke.Rehabilitation of gait after stroke: a review towards a top-down approach.The H2 robotic exoskeleton for gait rehabilitation after stroke: early findings from a clinical studyEffect of shoulder girdle strengthening on trunk alignment in patients with stroke.Feasibility and effects of patient-cooperative robot-aided gait training applied in a 4-week pilot trialHardware Development and Locomotion Control Strategy for an Over-Ground Gait Trainer: NaTUre-Gaits.KineAssist: design and development of a robotic overground gait and balance therapy device.The value of robotic systems in stroke rehabilitation.Usability and acceptability by a younger and older user group regarding a mobile robot-supported gait rehabilitation system.Robot-assisted gait training for stroke patients: current state of the art and perspectives of roboticsRobot-assisted gait training in patients with Parkinson disease: a randomized controlled trial.Parallel Robot for Lower Limb Rehabilitation Exercises.MIT-Skywalker: considerations on the Design of a Body Weight Support System.MIT-Skywalker: A Novel Gait Neurorehabilitation Robot for Stroke and Cerebral Palsy.Optimized intelligent control of a 2-degree of freedom robot for rehabilitation of lower limbs using neural network and genetic algorithm.Innovative gait robot for the repetitive practice of floor walking and stair climbing up and down in stroke patients.Walking with robot assistance: the influence of body weight support on the trunk and pelvis kinematics.Body weight supported treadmill training versus traditional training in patients dependent on walking assistance after stroke: a randomized controlled trial.Decrease of spasticity after hybrid assistive limb® training for a patient with C4 quadriplegia due to chronic SCI.Robot-assisted gait training is not superior to balance training for improving postural instability in patients with mild to moderate Parkinson's disease: a single-blind randomized controlled trial.Robot-assisted gait training for patients with hemiparesis due to stroke.Development of a portable gait rehabilitation system for home-visit rehabilitation.Feasibility of robot-based perturbed-balance training during treadmill walking in a high-functioning chronic stroke subject: a case-control study.Lower-Limb Robotic Rehabilitation: Literature Review and Challenges
P2860
Q24652597-52796524-BC76-4E83-829A-ADD55659C302Q27006708-D8B7A24E-AA3B-45E1-94CB-13A886FF1CE9Q31141152-9E43AFE5-BA19-424A-A926-37C8E4C3B96CQ33584936-0BE3DA53-3CAE-419E-B8C3-3F9FF2457A08Q33641891-45EB89EA-7604-45FC-BF95-ECE92C7A63DDQ33823021-4A45E05C-33E6-430F-ADEF-EC58DA22A6A1Q35575334-E9713FB7-E052-494C-8022-5FD1F02DEB50Q35680299-9829981A-B957-45F6-A722-2A02A9CF27F9Q35747627-9A5692CA-E08B-4DBA-A3B9-2CC3BF67E45CQ35968428-A35FAB76-BA11-4754-87D4-742F2A37E159Q36498905-3553E109-F4DB-45FA-A391-E04E5028E0C4Q36856183-65715759-8496-4E8C-8D4C-C6FA069BCD6EQ37145524-6BF773FB-56CF-48BC-B67D-1EF4F4DE1F64Q38183426-37408AF6-6091-4418-AD5D-41CD0493C9FEQ38658671-04D1A309-5D9E-43FE-AC87-0711C1247E1CQ39335517-14632572-6F08-492B-9271-0E0D11C58853Q39662533-88F961A8-2806-4BEB-9CF6-6FDF76E74B46Q41504586-63BB3516-DC36-49B6-9239-19A5BFF416CFQ41590481-BBD17CB9-0B1C-4534-9193-9B4ADE277305Q41643708-47655FC6-A159-4DA8-B6C0-73BB0A538F56Q42565869-96879FD9-68B4-4EE5-828D-8E9D6B58EE70Q42601278-03A49E11-CCD2-4703-8EEC-2680A5C24E06Q47184165-0876C696-4D26-4274-B332-A24684465C96Q47352815-068AFEF6-7C14-407C-86F2-EFE8DC0468ADQ48288449-E4BD2FF3-06B0-441B-A10C-0F45DBFE4592Q50649813-65B43B78-DD2B-40A5-9023-E5B6C9E3CACCQ51561413-F325CA6C-6E11-44AD-B3D1-DAB409260281Q54967606-1FC8CFB2-D1CA-4EE0-83BA-F9B4899C8389Q55078602-CBFF363C-0F27-4AD7-94C7-3ED9B427C1B8Q58692520-3B1B1B84-7D46-42F0-AFE1-A72091A8632B
P2860
Gait rehabilitation machines based on programmable footplates
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Gait rehabilitation machines based on programmable footplates
@en
type
label
Gait rehabilitation machines based on programmable footplates
@en
prefLabel
Gait rehabilitation machines based on programmable footplates
@en
P2093
P2860
P356
P1476
Gait rehabilitation machines based on programmable footplates
@en
P2093
Cordula Werner
Henning Schmidt
Jörg Krüger
Rolf Bernhardt
Stefan Hesse
P2860
P2888
P356
10.1186/1743-0003-4-2
P577
2007-02-09T00:00:00Z
P5875
P6179
1049180379