Abstract
Robotic assistance is increasingly used in neurological rehabilitation for enhanced training. Furthermore, therapy robots have the potential for accurate assessment of motor function in order to diagnose the patient status, to measure therapy progress or to feedback the movement performance to the patient and therapist in real time. We investigated whether a set of robot-based assessments that encompasses kinematic, kinetic and timing metrics is applicable, safe, reliable and comparable to clinical metrics for measurement of arm motor function. Twenty-four healthy subjects and five patients after spinal cord injury underwent robot-based assessments using the exoskeleton robot ARMin. Five different tasks were performed with aid of a visual display. Ten kinematic, kinetic and timing assessment parameters were extracted on joint- and end-effector level (active and passive range of motion, cubic reaching volume, movement time, distance-path ratio, precision, smoothness, reaction time, joint torques and joint stiffness). For cubic volume, joint torques and the range of motion for most joints, good inter- and intra-rater reliability were found whereas precision, movement time, distance-path ratio and smoothness showed weak to moderate reliability. A comparison with clinical scores revealed good correlations between robot-based joint torques and the Manual Muscle Test. Reaction time and distance-path ratio showed good correlation with the “Graded and Redefined Assessment of Strength, Sensibility and Prehension” (GRASSP) and the Van Lieshout Test (VLT) for movements towards a predefined position in the center of the frontal plane. In conclusion, the therapy robot ARMin provides a comprehensive set of assessments that are applicable and safe. The first results with spinal cord injured patients and healthy subjects suggest that the measurements are widely reliable and comparable to clinical scales for arm motor function. The methods applied and results can serve as a basis for the future development of end-effector and exoskeleton-based robotic assessments.
Highlights
Patients who suffer from a neurological disorder such as spinal cord injury (SCI) or stroke often face deficits in motor function
To evaluate the five ARMin assessment packages—namely range of motion (ROM), WORKSPACE, QOM, STRENGTH and resistance to passive movement (RPM)—healthy subjects and SCI patients participated in this study to investigate the four aspects intra-rater reliability, inter-rater reliability, comparison between healthy subjects and patients, and construct validity
Intra-rater reliability was calculated from four complete assessment sessions performed in eleven healthy subjects
Summary
Patients who suffer from a neurological disorder such as spinal cord injury (SCI) or stroke often face deficits in motor function. Stroke has a prevalence of approximately 795’000 people in the US (Center of Disease Control and Prevention, 2010). These impairments due to stroke or SCI lead to a restriction of both independence and participation in daily life [2, 3]. The assessments are often categorized using the international classification of functioning, disability and health (ICF) [6] to standardize the description of the health status With this classification the scores can be grouped according to the disability they address, i.e., body functions and structure, activities and participation. Clinical assessments often show deficits in terms of reliability, validity, sensitivity and duration of execution [7]
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