John Scholz, PhD

Affiliations: 
Physical therapy University of Delaware, Newark, DE, United States 
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"John Scholz"
Mean distance: 16.89 (cluster 6)
 
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Publications

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Srivastava S, Kao PC, Reisman DS, et al. (2018) Correction to: Coordination of muscles to control the footpath during over-ground walking in neurologically intact individuals and stroke survivors. Experimental Brain Research
Srivastava S, Kao PC, Reisman DS, et al. (2016) Robotic Assist-As-Needed as an Alternative to Therapist-Assisted Gait Rehabilitation. International Journal of Physical Medicine & Rehabilitation. 4
Gera G, McGlade KE, Reisman DS, et al. (2016) Trunk Muscle Coordination During Upward and Downward Reaching in Stroke Survivors. Motor Control. 20: 50-69
Srivastava S, Kao PC, Reisman DS, et al. (2016) Coordination of muscles to control the footpath during over-ground walking in neurologically intact individuals and stroke survivors. Experimental Brain Research
Kao PC, Srivastava S, Higginson JS, et al. (2015) Short-term Performance-based Error-augmentation versus Error-reduction Robotic Gait Training for Individuals with Chronic Stroke: A Pilot Study. Physical Medicine and Rehabilitation International. 2
Gera G, Freitas SM, Scholz JP. (2015) Relationship of diminished interjoint coordination after stroke to hand path consistency. Experimental Brain Research
Sargent B, Scholz J, Reimann H, et al. (2015) Development of infant leg coordination: Exploiting passive torques. Infant Behavior & Development. 40: 108-121
Dutta GG, McGlade KE, Reisman DS, et al. (2015) Trunk Muscle Coordination When Reaching Upward and Downward in Chronic Stroke Survivors. Motor Control
Mao Y, Jin X, Gera Dutta G, et al. (2015) Human movement training with a cable driven ARm EXoskeleton (CAREX). Ieee Transactions On Neural Systems and Rehabilitation Engineering : a Publication of the Ieee Engineering in Medicine and Biology Society. 23: 84-92
Scholz JP, Schöner G. (2014) Use of the uncontrolled manifold (UCM) approach to understand motor variability, motor equivalence, and self-motion. Advances in Experimental Medicine and Biology. 826: 91-100
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