Carbon nanotube composite for application in gait analysis

International Multi-Conference on Systems, Sygnals & Devices Pub Date : 2012-03-20 DOI:10.1109/SSD.2012.6198102

Carina Gerlach, J. Lange, O. Kanoun

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引用次数: 7

Abstract

Ulceration as a complication of diabetes mellitus is caused by high recurrent pressures at the foot, which may even lead to amputation. Risk factors of diabetic foot ulcers are diabetes, polyneuropathy and obesity. A gait analysis study including healthy, obese and diabetic persons was accomplished to determine characteristic plantar pressure distribution patterns between these groups. By analyzing the resulting roll-over-patterns, it should be possible to derive better sensor design criteria for new pressure sensing systems tailored on the specific disease pattern. The current available instruments for measurement of plantar pressure distribution are prone to mechanical overload and too expensive for everyday treatment of patients with diabetic foot syndrome. Thus a new low-cost, flexible pressure sensor system is in development. Therefore a pressure sensitive carbon nanotube-polymer composite was prepared and stencil printed on polymer foil. The printing process enables also the economical production of a flexible, piezoresistive film. The resistance change under applied load on the nanotube-polymer film was investigated using compression tests.

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碳纳米管复合材料在步态分析中的应用

溃疡是糖尿病的一种并发症，是由足部经常性的高压力引起的，这甚至可能导致截肢。糖尿病足溃疡的危险因素是糖尿病、多发性神经病变和肥胖。一项步态分析研究包括健康、肥胖和糖尿病患者，以确定这些组之间足底压力分布模式的特征。通过分析产生的翻倒模式，应该有可能为针对特定疾病模式量身定制的新型压力传感系统得出更好的传感器设计标准。目前可用的测量足底压力分布的仪器容易产生机械过载，并且对于糖尿病足综合征患者的日常治疗来说过于昂贵。因此，一种新的低成本、灵活的压力传感器系统正在开发中。为此，制备了一种压敏碳纳米管-聚合物复合材料，并在聚合物箔上进行了模板印刷。印刷过程也使经济生产柔性，压阻薄膜。通过压缩试验研究了纳米管-聚合物薄膜在外加载荷作用下的电阻变化。

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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International Multi-Conference on Systems, Sygnals & Devices

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