The reliability and validity of a non-wearable indoor positioning system to assess mobility in older adults: A cross-sectional study

medRxiv - Geriatric Medicine Pub Date : 2024-07-07 DOI:10.1101/2024.07.04.24309984

Isabel B. Rodrigues, Patricia Hewston, Jonathan Adachi, Sayem Borhan, George Ioannidis, Alexa Kouroukis, Carolyn Leckie, Andrea Lee, Alexander Rabinovich, Parthipan Siva, Rachel Swance, Suleman Tariq, Lehana Thabane, Alexandra Papaioannou

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Abstract

Background: Chirp is a privacy-preserving radar sensor developed to continuously monitor older adults' safety and mobility without the need for cameras or wearable devices. Our study purpose was to evaluate the inter-sensor reliability, intrasession test-retest reliability, and concurrent validity of Chirp in a clinical setting. Methods: We recruited 35 community-dwelling older adults (mean age 75.5 (standard deviation: 6.6) years, 86% female). All participants lived alone in an urban city in southwestern Ontario and had access to a smart device with wireless internet. Data were collected with a 4-meter ProtoKinetics ZenoTM Walkway (pressure sensors) with the Chirp sensor (radar positioning) at the end of the walkway. Participants walked during normal and adaptive locomotion experimental conditions (walking-while-talking, obstacle, narrow walking, fast walking). Each of the experimental conditions was conducted twice in a randomized order, with fast walking trials performed last. For intra-session reliability testing, we conducted two blocks of walks within a participant session separated by approximately 30 minutes. Intraclass Correlation Coefficient(A,1) (ICC(A,1)) was used to assess the reliability and validity. Linear regression, adjusted for gender, was used to investigate the association between Chirp and cognition and health-related quality of life scores. Results: The Chirp inter-sensor reliability ICC(A,1)=0.999[95% Confidence Interval [CI]: 0.997 to 0.999] and intrasession test-retest reliability [ICC(A,1) =0.921, 95% CI: 0.725 to 0.969] were excellent across all experimental conditions. Chirp concurrent validity compared to the ProtoKinetics ZenoTM Walkway was excellent across experimental conditions [ICC(A,1)= 0.993, 95% CI: 0.985 to 0.997]. We found a weak association between Chirp and cognition scores using the Montreal Cognitive Assessment across experimental conditions (estimated β-value= 7.79, 95% CI: 2.79 to 12.80) and no association between the Chirp and health-related quality of life using the 12-item Short Form Survey across experimental conditions (estimated β-value=6.12, 95% CI: -7.12 to 19.36). Conclusion: Our results demonstrate that Chirp is a reliable and valid measure to assess gait parameters in clinics among older adults.

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评估老年人行动能力的非穿戴式室内定位系统的可靠性和有效性：横断面研究

背景介绍Chirp 是一种保护隐私的雷达传感器，用于持续监测老年人的安全和行动能力，无需摄像头或可穿戴设备。我们的研究目的是评估 Chirp 在临床环境中的传感器间可靠性、时段内测试-重测可靠性和并发有效性。研究方法我们招募了 35 名居住在社区的老年人（平均年龄 75.5（标准差：6.6）岁，86% 为女性）。所有参与者都独自居住在安大略省西南部的一个城市，并能使用带有无线网络的智能设备。数据收集使用的是 4 米长的 ProtoKinetics ZenoTM Walkway（压力传感器）和位于步行道末端的 Chirp 传感器（雷达定位）。参与者在正常和自适应运动实验条件下行走（边走边说、障碍物、狭窄行走、快速行走）。每种实验条件均按随机顺序进行两次，最后进行快速行走实验。为了进行时段内信度测试，我们在一个参与者时段内进行了两组步行测试，每组步行测试间隔约 30 分钟。采用类内相关系数（A,1）（ICC(A,1)）来评估信度和效度。在对性别进行调整后，采用线性回归法研究 Chirp 与认知和健康相关生活质量评分之间的关系。结果Chirp 传感器间可靠性 ICC(A,1)=0.999[95% 置信区间 [CI]：在所有实验条件下，Chirp 的传感器间可靠性 ICC（A,1）=0.999[95% 置信区间 [CI]：0.997 至 0.999]，会期内重复测试可靠性 [ICC（A,1）=0.921，95% CI：0.725 至 0.969]都非常好。在所有实验条件下，Chirp 与 ProtoKinetics ZenoTM Walkway 的并发效度都非常好[ICC(A,1)= 0.993，95% CI：0.985 到 0.997]。我们发现，在不同实验条件下，Chirp 与使用蒙特利尔认知评估的认知评分之间存在微弱关联（估计 β 值= 7.79，95% CI：2.79 至 12.80），而在不同实验条件下，Chirp 与使用 12 项简表调查的健康相关生活质量之间没有关联（估计 β 值=6.12，95% CI：-7.12 至 19.36）。结论我们的研究结果表明，Chirp 是一种可靠有效的测量方法，可用于评估老年人在诊所中的步态参数。

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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medRxiv - Geriatric Medicine

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