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Jill M Landry

Showing results (1-10 of 8) with videos related to

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Human Movement Science|April 22, 2014
Augmented multisensory feedback enhances locomotor adaptation in humans with incomplete spinal cord injurySheng-Che Yen, Jill M Landry, Ming Wu
Journal of Rehabilitation Research and Development|January 25, 2014
Size of kinematic error affects retention of locomotor adaptation in human spinal cord injurySheng-Che Yen, Jill M Landry, Ming Wu
Gait & Posture|January 15, 2011
A cable-driven locomotor training system for restoration of gait in human SCIMing Wu, T George Hornby, Jill M Landry, et al.
Experimental Brain Research|November 24, 2011
Locomotor adaptation to resistance during treadmill training transfers to overground walking in human SCISheng-Che Yen, Brian D Schmit, Jill M Landry, et al.
Archives of Physical Medicine and Rehabilitation|March 31, 2012
Robotic resistance treadmill training improves locomotor function in human spinal cord injury: a pilot studyMing Wu, Jill M Landry, Brian D Schmit, et al.
Archives of Physical Medicine and Rehabilitation|January 21, 2014
Robotic resistance/assistance training improves locomotor function in individuals poststroke: a randomized controlled studyMing Wu, Jill M Landry, Janis Kim, et al.
Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference|January 19, 2012
A novel cable-driven robotic training improves locomotor function in individuals post-strokeMing Wu, Jill M Landry, Sheng-Che Yen, et al.
American Journal of Physical Medicine & Rehabilitation|May 6, 2016
Repeat Exposure to Leg Swing Perturbations During Treadmill Training Induces Long-Term Retention of Increased Step Length in Human SCI: A Pilot Randomized Controlled StudyMing Wu, Jill M Landry, Janis Kim, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Human Movement Science|April 22, 2014
Augmented multisensory feedback enhances locomotor adaptation in humans with incomplete spinal cord injurySheng-Che Yen, Jill M Landry, Ming Wu
Journal of Rehabilitation Research and Development|January 25, 2014
Size of kinematic error affects retention of locomotor adaptation in human spinal cord injurySheng-Che Yen, Jill M Landry, Ming Wu
Gait & Posture|January 15, 2011
A cable-driven locomotor training system for restoration of gait in human SCIMing Wu, T George Hornby, Jill M Landry, et al.
Experimental Brain Research|November 24, 2011
Locomotor adaptation to resistance during treadmill training transfers to overground walking in human SCISheng-Che Yen, Brian D Schmit, Jill M Landry, et al.
Archives of Physical Medicine and Rehabilitation|March 31, 2012
Robotic resistance treadmill training improves locomotor function in human spinal cord injury: a pilot studyMing Wu, Jill M Landry, Brian D Schmit, et al.
Archives of Physical Medicine and Rehabilitation|January 21, 2014
Robotic resistance/assistance training improves locomotor function in individuals poststroke: a randomized controlled studyMing Wu, Jill M Landry, Janis Kim, et al.
Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference|January 19, 2012
A novel cable-driven robotic training improves locomotor function in individuals post-strokeMing Wu, Jill M Landry, Sheng-Che Yen, et al.
American Journal of Physical Medicine & Rehabilitation|May 6, 2016
Repeat Exposure to Leg Swing Perturbations During Treadmill Training Induces Long-Term Retention of Increased Step Length in Human SCI: A Pilot Randomized Controlled StudyMing Wu, Jill M Landry, Janis Kim, et al.
Pageof 1