Development of an Active-Cooling System for Improving Residual-Limb Skin Care in Persons with Lower-Limb Amputation

2022 Design of Medical Devices Conference Pub Date : 2022-04-11 DOI:10.1115/dmd2022-1040

T. Farrell, Patricia McCracken, Alexandria Lloyd, K. Falbo, Nicole Walker, A. Hansen, Matthew Sauerbrey, Jennifer Johansson, Brianna Rozell, Kevin E. Lawrence, Ryan T. Myers, Kristian J Dimatteo, Thane R. Hunt, Michaelina Dupnik, Sara R. Koehler-McNicholas

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引用次数: 1

Abstract

Increases in residual-limb temperatures can occur simply by donning a lower-limb prosthesis and walking. Intrasocket temperatures can also remain elevated long after an activity ends. To address problems associated with activity-related increases in intrasocket temperatures (e.g., discomfort, decreased prosthesis use, lost suspension, residual-limb skin breakdown), an innovative Intrasocket Cooling Element (ICE) system has been developed and tested on ten, transtibial prosthesis users. This report describes the design of the thermo-electric driven, active-cooling ICE system and presents the results of both in-laboratory and at-home testing. Given the capacity for the ICE system to moderate intrasocket temperatures during controlled bouts of in-laboratory exercise, future testing will explore the potential for this technology to reduce the incidence of residual-limb skin issues and improve quality of life outcome measures among a cohort of lower-limb prosthesis users.

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一种改善下肢截肢者残肢皮肤护理的主动冷却系统的开发

只要戴上下肢假体并行走，残肢温度就会升高。在活动结束后很长一段时间内，套接体内的温度也会保持在高位。为了解决与活动相关的套内温度升高相关的问题(例如，不适、假体使用减少、失去悬浮、残肢皮肤破裂)，一种创新的套内冷却元件(ICE)系统已经开发出来，并在10万名跨胫假体用户身上进行了测试。本报告介绍了热电驱动主动冷却ICE系统的设计，并介绍了实验室和家庭测试的结果。鉴于ICE系统在实验室受控运动期间调节套内温度的能力，未来的测试将探索该技术的潜力，以减少残肢皮肤问题的发生率，并改善下肢假肢使用者的生活质量。

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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2022 Design of Medical Devices Conference

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