A Development of Measurement System of Elbow Joint for Spasticity by Using Motor

2019 1st International Conference on Electrical, Control and Instrumentation Engineering (ICECIE) Pub Date : 2019-11-01 DOI:10.1109/ICECIE47765.2019.8974736

Masanori Adachi, K. Nagamune

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Abstract

There is a spasticity in symptom that stroke hemiplegia patients usually develop. In addition to stroke, the spasticity is developed by head injury and spinal cord injury. The spasticity occurs mainly in limbs such as fingers, elbows, and ankles. Then patients cannot move their limbs as the symptom. Activity of Daily Living (ADL) is influenced by the symptom in their daily life. Therefore, it is important to evaluate the spasticity. Modified Ashworth Scale (MAS) and Modified Tardieu Scale (MTS) are mainly used as the evaluation method of the spasticity. However, each evaluation method is a manual test by an examiner. Therefore, the evaluation is not reliable because the experience, intuition, and subjectivity of the examiner influence the evaluation. In this study, we develop a measurement system for spasticity. First, we use the motor to flex the right arm of subjects. Next, we measure reaction forces and angles in flexion. Experiments perform in the normal state and the spastic state. In the normal state, subjects apply no force. In the spastic state, subjects apply the force at around 45 degrees. The flexion speeds are 1 rpm, 2 rpm, 3 rpm and 4 rpm. We perform the measurement between 0 degrees to 90 degrees in all the experiments. In this experiment, three healthy adult men participated. First, we performed normal experiment three times with four speeds. Next, we performed spasticity experiment with same way. We analyzed kurtosis and skewness to evaluate the obtained data. We can measure the spasticity by measuring the dynamic pattern of the reaction forces and angles, and, confirm changes in kurtosis and skewness in four flexion speeds. However, we found many improvements such as arm length and flexion speed. In the future, we will measure real patients.

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基于电机的肘关节痉挛度测量系统的研制

中风偏瘫患者通常表现为痉挛症状。除中风外，痉挛是由头部损伤和脊髓损伤引起的。痉挛主要发生在四肢，如手指、肘部和脚踝。然后患者的四肢不能活动作为症状。日常生活活动能力(ADL)受患者日常生活症状的影响。因此，评估痉挛是很重要的。痉挛的评价方法主要采用改良Ashworth量表(MAS)和改良Tardieu量表(MTS)。然而，每种评估方法都是由考官手工测试的。因此，由于审查员的经验、直觉和主观性影响了评估，评估是不可靠的。在这项研究中，我们开发了一个痉挛测量系统。首先，我们用马达来弯曲受试者的右臂。接下来，我们测量反作用力和弯曲角度。实验在正常状态和痉挛状态下进行。在正常状态下，受试者不使用武力。在痉挛状态下，受试者在45度左右施力。弯曲速度为1转/分，2转/分，3转/分和4转/分。在所有的实验中，我们都在0度到90度之间进行测量。在这个实验中，有三个健康的成年男性参与。首先，我们用四种速度进行了三次正常实验。接下来，我们用同样的方法进行痉挛实验。我们分析峰度和偏度来评价获得的数据。我们可以通过测量反作用力和角度的动态模式来测量肌肉的痉挛度，并确定四种屈曲速度下峰度和偏度的变化。然而，我们发现了许多改进，如手臂长度和屈曲速度。在未来，我们将测量真正的病人。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 1st International Conference on Electrical, Control and Instrumentation Engineering (ICECIE)

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