| P2093 | author name string | Marcia K O'Malley | |
| | Gerard E Francisco | |
| | Fabrizio Sergi | |
| | Ali Utku Pehlivan | |
| | Jared Elinger | |
| | John Michael Frullo | |
| | Kathryn Nedley | |
| | Kyle Fitle | |
| P2860 | cites work | Robotic training and clinical assessment of upper extremity movements after spinal cord injury: a single case report. | Q51423213 |
| | Robot assisted gait training with active leg exoskeleton (ALEX). | Q51852065 |
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| | The intra- and interrater reliability of the action research arm test: A practical test of upper extremity function in patients with stroke | Q57830016 |
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| | A performance test for assessment of upper limb function in physical rehabilitation treatment and research | Q71084419 |
| | Robot-assisted movement training compared with conventional therapy techniques for the rehabilitation of upper-limb motor function after stroke | Q74412643 |
| | Spinal cord injury facts and figures at a glance | Q84878879 |
| | Review of control strategies for robotic movement training after neurologic injury | Q21231961 |
| | Electromechanical and robot-assisted arm training for improving generic activities of daily living, arm function, and arm muscle strength after stroke | Q24202805 |
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| | Plasticity of motor systems after incomplete spinal cord injury | Q34205594 |
| | Plasticity after spinal cord injury: relevance to recovery and approaches to facilitate it | Q35006452 |
| | Validation of a mechanism to balance exercise difficulty in robot-assisted upper-extremity rehabilitation after stroke | Q35777216 |
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| | Modulations in corticomotor excitability during passive upper-limb movement: is there a cortical influence? | Q44052490 |
| | Implications of assist-as-needed robotic step training after a complete spinal cord injury on intrinsic strategies of motor learning. | Q46703784 |
| | Robotic-assisted, body-weight-supported treadmill training in individuals following motor incomplete spinal cord injury | Q47396866 |
| | A robust and sensitive metric for quantifying movement smoothness. | Q47573262 |
| | Optimizing compliant, model-based robotic assistance to promote neurorehabilitation. | Q47606380 |
| | Restoring voluntary control of locomotion after paralyzing spinal cord injury | Q48486697 |
| | Development of the Graded Redefined Assessment of Strength, Sensibility and Prehension (GRASSP): reviewing measurement specific to the upper limb in tetraplegia | Q48610708 |
| | Analysis of cerebellar motor disorders by visually guided elbow tracking movement | Q48627464 |
| | Mechanical design of a distal arm exoskeleton for stroke and spinal cord injury rehabilitation | Q48693417 |
| | Evaluation of robotic training forces that either enhance or reduce error in chronic hemiparetic stroke survivors. | Q48716894 |
| | Three-dimensional, task-specific robot therapy of the arm after stroke: a multicentre, parallel-group randomised trial. | Q51127261 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P304 | page(s) | 26 | |
| P577 | publication date | 2017-06-13 | |
| P1433 | published in | Frontiers in neurorobotics | Q27721915 |
| P1476 | title | Effects of Assist-As-Needed Upper Extremity Robotic Therapy after Incomplete Spinal Cord Injury: A Parallel-Group Controlled Trial | |
| P478 | volume | 11 | |