基于运动的精准医疗工具和智能手机应用程序,用于治疗跟腱病("PhysViz "系统):以用户为中心的开发研究。

IF 2.6 Q2 HEALTH CARE SCIENCES & SERVICES JMIR Human Factors Pub Date : 2024-11-13 DOI:10.2196/57873
Kohle Merry, Megan M MacPherson, Jackie L Whittaker, Christopher Napier, Liisa Holsti, Alex Scott
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引用次数: 0

摘要

背景:跟腱病(AT)患者会经历持续性疼痛,这种疼痛会限制他们从事日常职业,并对心理健康产生负面影响。目前的治疗性锻炼方法效果不一,许多患者会再次受伤,导致慢性肌腱病的循环往往持续数年。高强度的精确负荷可以帮助人们摆脱这种反馈循环,但将这些原则应用于临床却具有挑战性:这项以用户为中心的设计案例研究旨在概述PhysViz(一种用于运动障碍管理的新型远程康复干预原型)是如何在 "基于加速和系统技术的干预开发和评估研究框架"(FASTER)的开发阶段进行开发和评估的:方法:开发过程由一个多学科团队参与,该团队由具有辅助器具使用经验的人员、临床医生和工程师组成。开发过程遵循 FASTER 开发阶段的 5 个阶段:共鸣、定义、构思、原型和测试。PhysViz 的开发和评估参考了需求评估、调查、文献综述、验证研究、案例研究、圆桌讨论和可用性测试(其中一些已在之前发表)。FASTER 系统地指导了基于证据的功能和行为改变理论的整合:通过使用 FASTER 并确保 PhysViz 系统以不同利益相关者的需求为基础,这项工作开发出了 PhysViz 体育锻炼工具和配套 PhysViz 软件包(移动应用程序和网络应用程序)的工作原型。各种研究设计为 PhysViz 原型提供了用户所需的功能,包括精确负荷监测形式的实时生物反馈、可定制的锻炼计划和疼痛跟踪。此外,临床医生还可以纵向可视化客户数据,并根据客观数据远程更改客户的运动处方。已确定的改进领域,如升级用户界面和用户体验以及扩展临床应用,为今后的 PhysViz 迭代提供了宝贵的见解。有必要开展进一步研究,以评估 PhysViz 在不同临床环境中的长期有效性和可行性,以及其改善运动障碍症状的潜力:作为 FASTER 指导下的首批技术开发项目之一,这项研究体现了一种系统的、多学科的远程康复干预方法。通过整合利益相关者的反馈和循证功能,PhysViz 解决了运动障碍康复中的关键难题,为精确加载和治疗性运动参与提供了新颖的解决方案。用户和临床医生的积极反馈凸显了 PhysViz 在改善运动障碍管理效果方面的潜在影响。PhysViz 是基于技术的干预开发的典范,对其他腱鞘病症和远程康复策略具有潜在影响。
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An Exercise-Based Precision Medicine Tool and Smartphone App for Managing Achilles Tendinopathy (the 'PhysViz' System): User-Centered Development Study.

Background: People with Achilles tendinopathy (AT) experience persistent pain that can limit engagement with daily occupations and negatively impact mental health. Current therapeutic exercise approaches vary in success, with many people experiencing reinjury, leading to a cycle of chronic tendinopathy often lasting years. High-magnitude precision loading may help people exit this feedback cycle, but applying these principles clinically is challenging.

Objective: This user-centered design case study aims to provide an overview on how the PhysViz (a prototype for a novel remote rehabilitation intervention for AT management) was developed and evaluated following the development phase of the Framework for Accelerated and Systematic Technology-Based Intervention Development and Evaluation Research (FASTER).

Methods: The development process engaged a multidisciplinary team comprising people with AT experiences, clinicians, and engineers. It followed the 5 stages within the FASTER development phase: empathize, define, ideate, prototype, and test. The PhysViz development and evaluation were informed by needs assessments, surveys, literature reviews, validation studies, case studies, roundtable discussions, and usability testing (some of which have been published previously). The FASTER systematically guided the integration of evidence-based features and behavior change theory.

Results: By using the FASTER and ensuring that the PhysViz system was underpinned by diverse stakeholder needs, this work resulted in the development of a working prototype for both the PhysViz physical exercise tool and the accompanying PhysViz software package (mobile app and web application). A variety of study designs informed user-desired features that were integrated into the PhysViz prototype, including real-time biofeedback in the form of precision load monitoring, customizable exercise programs, and pain tracking. In addition, clinicians can visualize client data longitudinally and make changes to client exercise prescriptions remotely based on objective data. The identified areas for improvement, such as upgrading the user interface and user experience and expanding clinical applications, provide valuable insights for future PhysViz iterations. Further research is warranted to assess the long-term efficacy and feasibility of the PhysViz in diverse clinical settings and its potential to improve AT symptoms.

Conclusions: Being one of the first technology development initiatives guided by the FASTER, this study exemplifies a systematic and multidisciplinary approach to creating a remote rehabilitation intervention. By incorporating stakeholder feedback and evidence-based features, the PhysViz addresses key challenges in AT rehabilitation, offering a novel solution for precision loading and therapeutic exercise engagement. Positive feedback from users and clinicians underscores the potential impact of the PhysViz in improving AT management outcomes. The PhysViz serves as a model for technology-based intervention development, with potential implications for other tendinopathies and remote rehabilitation strategies.

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来源期刊
JMIR Human Factors
JMIR Human Factors Medicine-Health Informatics
CiteScore
3.40
自引率
3.70%
发文量
123
审稿时长
12 weeks
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