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Evaluating wearable multimodal sensor insoles for motion-pattern measurements in stroke rehabilitation - A pilot study

The majority of stroke patients experience deficits in motoric functions, especially in gait and mobility. They need rehabilitation to regain walking independence, which is a major goal of rehabilitation after stroke. To document and assess the rehabilitation progress, instrumented motion analysis a...

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Main Authors:	David, V., Forjan, M., Martinek, J., Kotzian, S., Jagos, H., Rafolt, D.
Format:	Conference Proceeding
Language:	English
Subjects:	Acceleration Accelerometry - instrumentation Aged Biomedical engineering Equipment Design Female Gait Humans Instruments Integrated circuits Legged locomotion Male Medical diagnostic imaging Middle Aged Pilot Projects Sensors Shoes Stroke Rehabilitation - instrumentation Walking - physiology Wearable Electronic Devices
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creator	David, V. Forjan, M. Martinek, J. Kotzian, S. Jagos, H. Rafolt, D.
description	The majority of stroke patients experience deficits in motoric functions, especially in gait and mobility. They need rehabilitation to regain walking independence, which is a major goal of rehabilitation after stroke. To document and assess the rehabilitation progress, instrumented motion analysis and clinical assessments are commonly used. In a clinical pilot study the applicability of an instrumented insole system in stroke rehabilitation is evaluated. Motion parameter of 35 stroke patients were gathered with the system while completing 90 s level walking and Timed Up & Go test at the beginning and end of four weeks inpatient rehabilitation. For level walking the motion parameter were gathered with the clinical reference system simultaneously. The mean stride time for level walking decreased from 1.20 s to 1.16 s (clinical system), or from 1.19 s to 1.12 s (insole system), respectively. Focusing on individual comparison of each patient's progress, 9 gait parameters are extracted for level walking, 6 sub-phases of Timed Up & Go test are detected and analyzed, as well as progress of Center of Pressure in the sub-phases is examined. Although the overall data show wide distribution, the system proofed to be applicable in clinical stroke rehabilitation routine. As the system is location-independent, and has the advantage of assessing additional parameters of the Timed Up & Go test, it is additionally suitable for integration in a tele-or home rehabilitation system.
doi_str_mv	10.1109/ICORR.2017.8009467
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Focusing on individual comparison of each patient's progress, 9 gait parameters are extracted for level walking, 6 sub-phases of Timed Up & Go test are detected and analyzed, as well as progress of Center of Pressure in the sub-phases is examined. Although the overall data show wide distribution, the system proofed to be applicable in clinical stroke rehabilitation routine. 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source	IEEE Xplore All Conference Series
subjects	Acceleration Accelerometry - instrumentation Aged Biomedical engineering Equipment Design Female Gait Humans Instruments Integrated circuits Legged locomotion Male Medical diagnostic imaging Middle Aged Pilot Projects Sensors Shoes Stroke Rehabilitation - instrumentation Walking - physiology Wearable Electronic Devices
title	Evaluating wearable multimodal sensor insoles for motion-pattern measurements in stroke rehabilitation - A pilot study
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