Nipun Sodhi, Daniel Hameed, Robert L Barrack, Andrew M Schneider, Anil Bhave, Michael A Mont
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Furthermore, various devices developed for this monitoring might help obviate the need for frequent emergency room visits, readmissions, and prolonged outpatient physical therapy sessions, as well as reduce complications and increase patient satisfaction scores after total joint arthroplasty surgery. However, while there are a number of potential benefits to technology for this type of care, its application following total knee arthroplasty has not been well-studied. Therefore, after an overview of the usage of RPM and RTM, the purpose of this study was to review the current literature regarding three common remote monitoring technologies: 1) smartphone apps; 2) wearables; and 3) combined smartphone apps and wearables. We also considered the potential financial implications of remote physiologic monitoring.</p><p><strong>Materials and methods: </strong>A comprehensive search of the PubMed, Cochrane Library, MedLine, and Web of Science databases was performed. Three main subgroups of monitoring devices were included for analysis: smartphone apps, wearable devices, and combined wearable plus smartphone app platforms. Searches focused on remote physiologic monitoring, patient-specific advantages, financial advantages, billing and coding options, as well as overall efficacy of platforms.</p><p><strong>Results: </strong>The current review found smartphone apps, wearables, and combined smartphone app and wearable platform technologies to be advantageous in the postoperative period following total knee arthroplasty. The wearable components can provide highly accurate and reproducible data, which the user-friendly smartphone app can relay to the patient so they can easily understand their progress. Additionally, through the apps, patients can directly access their surgical team. By constantly collecting and evaluating range of motion and functional data, the surgical team can identify if the patient is appropriately progressing through treatment or if further intervention is warranted.</p><p><strong>Conclusion: </strong>The incorporation of the remote physiologic monitoring devices during the post-total knee arthroplasty period shows strong promise as a progress-tracking modality. 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More recently, the application of this technology has ventured into the orthopaedic arena, and more specifically, for total joint arthroplasty. Platforms to expedite this monitoring can provide continuous biodata feedback on digital biomarkers to patients and surgeons, which can potentially help improve and create novel patient-specific recovery pathways. Furthermore, various devices developed for this monitoring might help obviate the need for frequent emergency room visits, readmissions, and prolonged outpatient physical therapy sessions, as well as reduce complications and increase patient satisfaction scores after total joint arthroplasty surgery. However, while there are a number of potential benefits to technology for this type of care, its application following total knee arthroplasty has not been well-studied. 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引用次数: 0
摘要
引言:远程生理监测(RPM)或远程治疗监测(RTM)在医疗保险患者的慢性医疗疾病管理方面呈指数级增长。最近,这项技术的应用已进入骨科领域,更具体地说,是全关节置换术。加快监测的平台可以向患者和外科医生提供关于数字生物标志物的持续生物数据反馈,这可能有助于改善和创建新的患者特异性康复途径。此外,为这种监测开发的各种设备可能有助于避免频繁的急诊室就诊、再次入院和延长门诊物理治疗时间,并减少并发症,提高全关节置换术后患者满意度得分。然而,尽管这类护理技术有许多潜在的好处,但其在全膝关节置换术后的应用尚未得到很好的研究。因此,在概述了RPM和RTM的使用后,本研究的目的是回顾当前关于三种常见远程监控技术的文献:1)智能手机应用程序;2) 可穿戴设备;以及3)智能手机应用程序和可穿戴设备的结合。我们还考虑了远程生理监测的潜在财务影响。材料和方法:全面检索PubMed、Cochrane图书馆、MedLine和Web of Science数据库。监测设备的三个主要亚组被纳入分析:智能手机应用程序、可穿戴设备以及可穿戴与智能手机应用平台的组合。搜索的重点是远程生理监测、患者特定优势、财务优势、计费和编码选项,以及平台的整体功效。结果:目前的综述发现,智能手机应用程序、可穿戴设备以及智能手机应用和可穿戴平台技术的结合在全膝关节置换术后的术后阶段是有利的。可穿戴组件可以提供高度准确和可重复的数据,用户友好的智能手机应用程序可以将这些数据转发给患者,以便他们能够轻松了解自己的进展。此外,通过这些应用程序,患者可以直接访问他们的手术团队。通过不断收集和评估运动范围和功能数据,手术团队可以确定患者是否在治疗中取得了适当进展,或者是否需要进一步干预。结论:在全膝关节置换术后期间,远程生理监测设备的结合显示出作为一种进展跟踪模式的强大前景。已公布的益处包括减少物理治疗就诊次数,减少疼痛评分和对阿片类药物的依赖,增加通过步数评估的活动水平,提高跟踪表现不佳患者的能力,减少再次入院,减少亲自就诊,降低术后费用。
Use of Remote Physiologic and Therapeutic Monitoring Following Total Knee Arthroplasty.
Introduction: Remote physiologic monitoring (RPM), or remote therapeutic monitoring (RTM), has grown exponentially for the management of chronic medical diseases in Medicare patients. More recently, the application of this technology has ventured into the orthopaedic arena, and more specifically, for total joint arthroplasty. Platforms to expedite this monitoring can provide continuous biodata feedback on digital biomarkers to patients and surgeons, which can potentially help improve and create novel patient-specific recovery pathways. Furthermore, various devices developed for this monitoring might help obviate the need for frequent emergency room visits, readmissions, and prolonged outpatient physical therapy sessions, as well as reduce complications and increase patient satisfaction scores after total joint arthroplasty surgery. However, while there are a number of potential benefits to technology for this type of care, its application following total knee arthroplasty has not been well-studied. Therefore, after an overview of the usage of RPM and RTM, the purpose of this study was to review the current literature regarding three common remote monitoring technologies: 1) smartphone apps; 2) wearables; and 3) combined smartphone apps and wearables. We also considered the potential financial implications of remote physiologic monitoring.
Materials and methods: A comprehensive search of the PubMed, Cochrane Library, MedLine, and Web of Science databases was performed. Three main subgroups of monitoring devices were included for analysis: smartphone apps, wearable devices, and combined wearable plus smartphone app platforms. Searches focused on remote physiologic monitoring, patient-specific advantages, financial advantages, billing and coding options, as well as overall efficacy of platforms.
Results: The current review found smartphone apps, wearables, and combined smartphone app and wearable platform technologies to be advantageous in the postoperative period following total knee arthroplasty. The wearable components can provide highly accurate and reproducible data, which the user-friendly smartphone app can relay to the patient so they can easily understand their progress. Additionally, through the apps, patients can directly access their surgical team. By constantly collecting and evaluating range of motion and functional data, the surgical team can identify if the patient is appropriately progressing through treatment or if further intervention is warranted.
Conclusion: The incorporation of the remote physiologic monitoring devices during the post-total knee arthroplasty period shows strong promise as a progress-tracking modality. Published benefits include reduced physical therapy visits, decreased pain scores and reliance on opioids, increased activity levels as assessed by step counts, increased ability to follow less well-performing patients, reduced readmissions, reduced in-person clinic visits, and decreased postoperative costs.