Innovative Hybrid Cloud Solutions for Physical Medicine and Telerehabilitation Research.

IF 2.5 Q1 REHABILITATION
International Journal of Telerehabilitation Pub Date : 2024-06-28 eCollection Date: 2024-01-01 DOI:10.5195/ijt.2024.6635
Kyrylo S Malakhov
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引用次数: 0

Abstract

Purpose: The primary objective of this study was to develop and implement a Hybrid Cloud Environment for Telerehabilitation (HCET) to enhance patient care and research in the Physical Medicine and Rehabilitation (PM&R) domain. This environment aims to integrate advanced information and communication technologies to support both traditional in-person therapy and digital health solutions.

Background: Telerehabilitation is emerging as a core component of modern healthcare, especially within the PM&R field. By applying digital health technologies, telerehabilitation provides continuous, comprehensive support for patient rehabilitation, bridging the gap between traditional therapy, and remote healthcare delivery. This study focuses on the design, and implementation of a hybrid HCET system tailored for the PM&R domain.

Methods: The study involved the development of a comprehensive architectural and structural organization for the HCET, including a three-layer model (infrastructure, platform, service layers). Core components of the HCET were designed and implemented, such as the Hospital Information System (HIS) for PM&R, the MedRehabBot system, and the MedLocalGPT project. These components were integrated using advanced technologies like large language models (LLMs), word embeddings, and ontology-related approaches, along with APIs for enhanced functionality and interaction.

Findings: The HCET system was successfully implemented and is operational, providing a robust platform for telerehabilitation. Key features include the MVP of the HIS for PM&R, supporting patient profile management, and rehabilitation goal tracking; the MedRehabBot and WhiteBookBot systems; and the MedLocalGPT project, which offers sophisticated querying capabilities, and access to extensive domain-specific knowledge. The system supports both Ukrainian and English languages, ensuring broad accessibility and usability.

Interpretation: The practical implementation, and operation of the HCET system demonstrate its potential to transform telerehabilitation within the PM&R domain. By integrating advanced technologies, and providing comprehensive digital health solutions, the HCET enhances patient care, supports ongoing rehabilitation, and facilitates advanced research. Future work will focus on optimizing services and expanding language support to further improve the system's functionality and impact.

物理医学和远程康复研究的创新混合云解决方案。
目的:本研究的主要目的是开发和实施远程康复混合云环境(HCET),以加强物理医学与康复(PM&R)领域的患者护理和研究。该环境旨在整合先进的信息和通信技术,为传统的面对面治疗和数字健康解决方案提供支持:背景:远程康复正在成为现代医疗保健的核心组成部分,尤其是在物理医学与康复领域。通过应用数字医疗技术,远程康复为患者康复提供持续、全面的支持,缩小了传统治疗与远程医疗之间的差距。本研究重点关注为 PM&R 领域量身定制的混合 HCET 系统的设计和实施:研究涉及 HCET 的全面架构和结构组织的开发,包括三层模型(基础设施层、平台层、服务层)。设计并实施了 HCET 的核心组件,如 PM&R 医院信息系统(HIS)、MedRehabBot 系统和 MedLocalGPT 项目。这些组件利用先进的技术进行了整合,如大型语言模型(LLM)、词嵌入和本体相关方法,以及用于增强功能和交互的应用程序接口:HCET 系统已成功实施并投入运行,为远程康复提供了一个强大的平台。该系统的主要功能包括 PM&R HIS 的 MVP,支持患者档案管理和康复目标跟踪;MedRehabBot 和 WhiteBookBot 系统;以及 MedLocalGPT 项目,该项目提供复杂的查询功能,并可访问广泛的特定领域知识。该系统支持乌克兰语和英语,确保了广泛的可访问性和可用性:HCET 系统的实际实施和运行表明,该系统具有改变 PM&R 领域远程康复的潜力。通过整合先进技术并提供全面的数字健康解决方案,HCET 可加强对患者的护理、支持持续康复并促进高级研究。未来的工作重点是优化服务和扩大语言支持,以进一步提高系统的功能和影响力。
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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来源期刊
CiteScore
4.60
自引率
6.10%
发文量
14
审稿时长
10 weeks
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