沉浸式技术对医疗保健行业及其建筑环境的影响。

IF 2.7 Q3 ENGINEERING, BIOMEDICAL
Frontiers in medical technology Pub Date : 2023-09-20 eCollection Date: 2023-01-01 DOI:10.3389/fmedt.2023.1184925
Eunsil Yang
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引用次数: 0

摘要

目标:这项研究的重点是建筑环境专家如何为MXR支持的数字创新做出贡献,作为多学科团队努力的一部分,以确保医疗建筑环境中的疫情后恢复力。本研究的目标是分别帮助医疗保健提供者、建筑环境专家和政策制定者:(1)宣传MXR对创新健康和社会护理的好处;(2) 在专业知识网络中引发辩论,以创造促进健康的环境;以及(3)了解制定实施MXR的有效途径的首要任务。方法:为了突出本研究的新颖性,本研究采用了两种定性方法:探索性文献综述和半结构化访谈。根据对先前工作的评估和跨国家的案例研究,从三个领域提出了假设:(1)跨部门的疫情后复原倡议;(2) 下一代药物的互操作性和可用性;以及(3)元宇宙和未来医疗保健生态系统中的新价值形式。为了验证这些假设,实证研究结果来自对九名关键线人的深入采访。结果:主要研究结果概括为以下三个主题:(1)建筑与技术之间的协同作用;(2) 患者授权和员工支持;以及(3)非医院和治疗环境中的可扩展健康和福祉。首先,建筑环境和医疗保健部门都可以通过跨部门举措、循证实践和参与式方法从MXR的各种能力中受益。其次,HCI和HBI的知识和方法的融合可以提高MXR在以患者为中心和基于价值的医疗保健模型中的互操作性和可用性。第三,支持MXR的技术制度将通过在未来的医疗保健生态系统中培养更分散的预防和治疗特征,在很大程度上影响医疗保健场所的新价值形式。结论:无论是虚拟的还是物理的,我们的医疗保健系统都非常重视将健康结果与临床环境联系起来的循证方法的严谨性。今后,建筑环境专家应寻求与MXR生态系统建立更紧密的联系,以便在非医院和治疗环境中共同生产可扩展的健康和福祉。最终,这是为了提高医疗保健部门的资源效率,同时考虑通过增加MXR的实施,将医疗资源向计算机状态过渡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Implications of immersive technologies in healthcare sector and its built environment.

Implications of immersive technologies in healthcare sector and its built environment.

Implications of immersive technologies in healthcare sector and its built environment.

Implications of immersive technologies in healthcare sector and its built environment.

Objectives: This research focuses on how built environment experts can contribute to the MXR-enabled digital innovation as part of the multidisciplinary team effort to ensure post-pandemic resilience in healthcare built environment. The goal of this research is to help healthcare providers, built environment experts, and policy makers respectively: (1) Advocate the benefits of MXR for innovating health and social care; (2) Spark debate across networks of expertise to create health-promoting environment; and (3) Understand the overriding priorities in making effective pathways to the implementation of MXR.

Methods: To highlight the novelty of this research, the study relies on two qualitative methodologies: exploratory literature review and semi-structured interviews. Based on the evaluation of prior works and cross-national case studies, hypotheses are formulated from three arenas: (1) Cross-sectional Initiatives for Post-pandemic Resilience; (2) Interoperability and Usability of Next-gen Medicines; and (3) Metaverse and New Forms of Value in Future Healthcare Ecosystems. To verify those hypotheses, empirical findings are derived from in-depth interviews with nine key informants.

Results: The main findings are summarized under the following three themes: (1) Synergism between Architecture and Technology; (2) Patient Empowerment and Staff Support; and (3) Scalable Health and Wellbeing in Non-hospital and Therapeutic Settings. Firstly, both built environment and healthcare sectors can benefit from the various capabilities of MXR through cross-sectional initiatives, evidence-based practices, and participatory approaches. Secondly, a confluence of knowledge and methods of HCI and HBI can increase the interoperability and usability of MXR for the patient-centered and value-based healthcare models. Thirdly, the MXR-enabled technological regime will largely affect the new forms of value in healthcare premises by fostering more decentralized, preventive, and therapeutic characteristics in the future healthcare ecosystems.

Conclusion: Whether it's virtual or physical, our healthcare systems have placed great emphasis on the rigor of evidence-based approach linking health outcome to a clinical environment. Henceforth, built environment experts should seek closer ties with the MXR ecosystems for the co-production of scalable health and wellbeing in non-hospital and therapeutic settings. Ultimately, this is to improve resource efficiency in the healthcare sector while considering the transition of health resources towards in silico status by increasing the implementation of MXR.

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