A simple tool to measure spasticity in spinal cord injury subjects

This work presents a wearable device and the algorithms for quantitative modelling of joint spasticity and its application in a pilot group of subjects with different levels of spinal cord injury. The device comprises light-weight instrumented handles to measure the interaction force between the sub...

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Published in	IEEE International Conference on Rehabilitation Robotics Vol. 2017; pp. 1590 - 1596
Main Authors	Arami, Arash, Tagliamonte, Nevio L., Tamburella, Federica, Huang, Hsieng-Yung, Molinari, Marco, Burdet, Etienne
Format	Conference Proceeding Journal Article
Language	English
Published	United States IEEE 01.07.2017
Subjects	Algorithms Biomechanical Phenomena Electromyography Electromyography - instrumentation Equipment Design Female Foot Foot - physiopathology Humans Instruments Kinematics Leg - physiopathology Muscle Spasticity - diagnosis Muscle Spasticity - physiopathology Muscle, Skeletal Muscles Sensors Signal Processing, Computer-Assisted - instrumentation Spinal Cord Injuries - physiopathology Torque Wearable Electronic Devices
Online Access	Get full text
ISSN	1945-7901 1945-7901
DOI	10.1109/ICORR.2017.8009475

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Abstract	This work presents a wearable device and the algorithms for quantitative modelling of joint spasticity and its application in a pilot group of subjects with different levels of spinal cord injury. The device comprises light-weight instrumented handles to measure the interaction force between the subject and the physical therapist performing the tests, EMG sensors and inertial measurement units to measure muscle activity and joint kinematics. Experimental tests included the passive movement of different body segments, where the spasticity was expected, at different velocities. Tonic stretch reflex thresholds and their velocity modulation factor are computed, as a quantitative index of spasticity, by using the kinematics data at the onset of spasm detected through thresholding the EMG data. This technique was applied to two spinal cord injury subjects. The proposed method allowed the analysis of spasticity at muscle and joint levels. The obtained results are in line with the expert diagnosis and qualitative spasticity characterisation on each individual.
AbstractList	This work presents a wearable device and the algorithms for quantitative modelling of joint spasticity and its application in a pilot group of subjects with different levels of spinal cord injury. The device comprises light-weight instrumented handles to measure the interaction force between the subject and the physical therapist performing the tests, EMG sensors and inertial measurement units to measure muscle activity and joint kinematics. Experimental tests included the passive movement of different body segments, where the spasticity was expected, at different velocities. Tonic stretch reflex thresholds and their velocity modulation factor are computed, as a quantitative index of spasticity, by using the kinematics data at the onset of spasm detected through thresholding the EMG data. This technique was applied to two spinal cord injury subjects. The proposed method allowed the analysis of spasticity at muscle and joint levels. The obtained results are in line with the expert diagnosis and qualitative spasticity characterisation on each individual. This work presents a wearable device and the algorithms for quantitative modelling of joint spasticity and its application in a pilot group of subjects with different levels of spinal cord injury. The device comprises light-weight instrumented handles to measure the interaction force between the subject and the physical therapist performing the tests, EMG sensors and inertial measurement units to measure muscle activity and joint kinematics. Experimental tests included the passive movement of different body segments, where the spasticity was expected, at different velocities. Tonic stretch reflex thresholds and their velocity modulation factor are computed, as a quantitative index of spasticity, by using the kinematics data at the onset of spasm detected through thresholding the EMG data. This technique was applied to two spinal cord injury subjects. The proposed method allowed the analysis of spasticity at muscle and joint levels. The obtained results are in line with the expert diagnosis and qualitative spasticity characterisation on each individual.This work presents a wearable device and the algorithms for quantitative modelling of joint spasticity and its application in a pilot group of subjects with different levels of spinal cord injury. The device comprises light-weight instrumented handles to measure the interaction force between the subject and the physical therapist performing the tests, EMG sensors and inertial measurement units to measure muscle activity and joint kinematics. Experimental tests included the passive movement of different body segments, where the spasticity was expected, at different velocities. Tonic stretch reflex thresholds and their velocity modulation factor are computed, as a quantitative index of spasticity, by using the kinematics data at the onset of spasm detected through thresholding the EMG data. This technique was applied to two spinal cord injury subjects. The proposed method allowed the analysis of spasticity at muscle and joint levels. The obtained results are in line with the expert diagnosis and qualitative spasticity characterisation on each individual.
Author	Tamburella, Federica Huang, Hsieng-Yung Tagliamonte, Nevio L. Arami, Arash Molinari, Marco Burdet, Etienne
Author_xml	– sequence: 1 givenname: Arash surname: Arami fullname: Arami, Arash email: a.arami@imperial.ac.uk organization: Human Robotics Group, Imperial College London, London, UK – sequence: 2 givenname: Nevio L. surname: Tagliamonte fullname: Tagliamonte, Nevio L. email: n.tagliamonte@hsantalucia.it organization: Neurorehabilitation 1 and Spinal Center, Foundation Santa Lucia, Rome, Italy – sequence: 3 givenname: Federica surname: Tamburella fullname: Tamburella, Federica organization: Neurorehabilitation 1 and Spinal Center, Foundation Santa Lucia, Rome, Italy – sequence: 4 givenname: Hsieng-Yung surname: Huang fullname: Huang, Hsieng-Yung organization: Human Robotics Group, Imperial College London, London, UK – sequence: 5 givenname: Marco surname: Molinari fullname: Molinari, Marco organization: Neurorehabilitation 1 and Spinal Center, Foundation Santa Lucia, Rome, Italy – sequence: 6 givenname: Etienne surname: Burdet fullname: Burdet, Etienne organization: Human Robotics Group, Imperial College London, London, UK
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SubjectTerms	Algorithms Biomechanical Phenomena Electromyography Electromyography - instrumentation Equipment Design Female Foot Foot - physiopathology Humans Instruments Kinematics Leg - physiopathology Muscle Spasticity - diagnosis Muscle Spasticity - physiopathology Muscle, Skeletal Muscles Sensors Signal Processing, Computer-Assisted - instrumentation Spinal Cord Injuries - physiopathology Torque Wearable Electronic Devices
Title	A simple tool to measure spasticity in spinal cord injury subjects
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