关于利用步幅表征下肢截肢者行走能力的试点项目

Ejay Nsugbe , Oluwarotimi Williams Samuel , Mojisola Grace Asogbon , Jose Javier Reyes-Lagos
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引用次数: 0

摘要

截肢是世界各地都会发生的一种常见疾病,其原因包括先天性、疾病或外伤等外部原因。假肢是最接近失去肢体的替代功能。在为截肢患者提供任何形式的康复支持之前,首先需要使用 K 级分级系统对他们的活动程度和水平进行评估。K 级评分的典型方法是定性方法,这种方法因其主观性和有时不精确而饱受批评。为了弥补这一缺陷,我们研究了利用可穿戴传感器的数据来分析不同受试者的步幅和步频,从而定量推断 K 级的前景。我们利用加速度计的数据以及先进的信号处理和机器学习模型,对不同活动能力的截肢者的各种 K 级进行了定量识别和区分。实验结果表明,在所调查的情况下和作为本研究一部分应用的模型下,这一目标是可以实现的。此外,还对使用加速度计数据区分截肢和非截肢受试者进行了分析,结果表明,仅使用加速度计数据和相应的后处理方法,就可以对群体进行分类和区分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A pilot on the use of stride cadence for the characterization of walking ability in lower limb amputees

Amputations are a prominent affliction that occur worldwide, with causes ranging from congenital, disease-based, or external reasons such as trauma. Prosthesis provides the closest alternative functional replacement to the loss of a limb. Before any form of rehabilitation support can be offered to amputee patients, an assessment of their degree and level of mobility first needs to be evaluated using the K-level grading system. The typical means towards the assigning of a K-level grading is through qualitative methods, which have been criticized for being subjective and, at times, imprecise. As a means towards remedying this shortcoming, we investigated the prospect of utilizing data from wearable sensors for analyzing the stride pattern and cadence of various subjects towards the quantitative inference of a K-level. This was accomplished using data from accelerometers, alongside advanced signal processing and machine learning models, towards the quantitative identification and differentiation of the various K-levels of amputees of varied levels of mobility. The experimental results showed that this aim could be accomplished under the circumstance investigated and the models applied as part of this research. Additional analysis was also done on the use of data from accelerometers towards the differentiation between amputated and non-amputated subjects, which showed that the cohorts could be classified and differentiated using purely accelerometer data and the accompanying postprocessing methods.

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来源期刊
Biomedical engineering advances
Biomedical engineering advances Bioengineering, Biomedical Engineering
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