The following publications are possibly variants of this publication:
- A Comparison Between Reaching Distance and Work Area for Measuring the Impact of Flexion Synergy on Reaching Function in Chronic Moderate to Severe Hemiparetic StrokeMichael D. Ellis, Sabeen Admani. biorob 2020: 853-859 [doi]
- Impairment-Based 3-D Robotic Intervention Improves Upper Extremity Work Area in Chronic Stroke: Targeting Abnormal Joint Torque Coupling With Progressive Shoulder Abduction LoadingMichael D. Ellis, Theresa M. Sukal-Moulton, Julius P. A. Dewald. trob, 25(3):549-555, 2009. [doi]
- Increased shoulder abduction loads decreases volitional finger extension in individuals with chronic stroke: Preliminary findingsYiyun Lan, Jun Yao, Jules Dewald. embc 2014: 5808-5811 [doi]
- Shoulder abduction loading affects motor coordination in individuals with chronic stroke, informing targeted rehabilitationAleksandra Kalinowska, Kyra Rudy, Millicent Schlafly, Kathleen Fitzsimons, Julius P. A. Dewald, Todd D. Murphey. biorob 2020: 1010-1017 [doi]
- Constraints imposed by the lower extremity extensor synergy in chronic hemiparetic stroke: Preliminary findingsNatalia Sanchez, Julius P. A. Dewald. embc 2014: 5804-5807 [doi]
- High-density surface EMG decomposition allows for recording of motor unit discharge from proximal and distal flexion synergy muscles simultaneously in individuals with strokeLaura C. Miller, Christopher K. Thompson, Francesco Negro, C. J. Heckman, Dario Farina, Julius P. A. Dewald. embc 2014: 5340-5344 [doi]