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增强现实接口在中枢神经系统复杂解剖学学习中的应用:系统评价。

Augmented Reality Interface for Complex Anatomy Learning in the Central Nervous System: A Systematic Review.

机构信息

Department of Multimedia, Faculty of Computer Science and Information Technology, University Putra Malaysia, Seri Kembangan, Malaysia.

Department of Computer Science, University of Swabi, Ambar, Khyber Pakhtunkhwa 23430, Pakistan.

出版信息

J Healthc Eng. 2020 Sep 10;2020:8835544. doi: 10.1155/2020/8835544. eCollection 2020.

DOI:10.1155/2020/8835544
PMID:32963749
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7501559/
Abstract

The medical system is facing the transformations with augmentation in the use of medical information systems, electronic records, smart, wearable devices, and handheld. The central nervous system function is to control the activities of the mind and the human body. Modern speedy development in medical and computational growth in the field of the central nervous system enables practitioners and researchers to extract and visualize insight from these systems. The function of augmented reality is to incorporate virtual and real objects, interactively running in a real-time and real environment. The role of augmented reality in the central nervous system becomes a thought-provoking task. Gesture interaction approach-based augmented reality in the central nervous system has enormous impending for reducing the care cost, quality refining of care, and waste and error reducing. To make this process smooth, it would be effective to present a comprehensive study report of the available state-of-the-art-work for enabling doctors and practitioners to easily use it in the decision making process. This comprehensive study will finally summarise the outputs of the published materials associate to gesture interaction-based augmented reality approach in the central nervous system. This research uses the protocol of systematic literature which systematically collects, analyses, and derives facts from the collected papers. The data collected range from the published materials for 10 years. 78 papers were selected and included papers based on the predefined inclusion, exclusion, and quality criteria. The study supports to identify the studies related to augmented reality in the nervous system, application of augmented reality in the nervous system, technique of augmented reality in the nervous system, and the gesture interaction approaches in the nervous system. The derivations from the studies show that there is certain amount of rise-up in yearly wise articles, and numerous studies exist, related to augmented reality and gestures interaction approaches to different systems of the human body, specifically to the nervous system. This research organises and summarises the existing associated work, which is in the form of published materials, and are related to augmented reality. This research will help the practitioners and researchers to sight most of the existing studies subjected to augmented reality-based gestures interaction approaches for the nervous system and then can eventually be followed as support in future for complex anatomy learning.

摘要

医疗系统正在经历变革,医疗信息系统、电子病历、智能可穿戴设备和手持设备的使用日益增加。中枢神经系统的功能是控制思维和人体的活动。医学和计算领域的快速发展使得从业者和研究人员能够从这些系统中提取和可视化洞察力。增强现实的功能是将虚拟和真实物体融合在一起,在实时和真实环境中交互运行。增强现实在中枢神经系统中的作用成为一个发人深省的任务。基于手势交互的增强现实在中枢神经系统中具有巨大的潜力,可以降低护理成本、提高护理质量、减少浪费和错误。为了使这个过程顺利进行,最好提供一份关于现有最先进技术的全面研究报告,使医生和从业者能够在决策过程中轻松使用它。这项全面的研究最终将总结与基于手势交互的增强现实方法在中枢神经系统中相关的已发表材料的结果。本研究使用系统文献综述的方案,系统地从收集的论文中收集、分析和推导事实。收集的数据范围从 10 年来发表的材料。根据预先设定的纳入、排除和质量标准,选择并纳入了 78 篇论文。该研究支持识别与神经系统增强现实相关的研究、增强现实在神经系统中的应用、神经系统增强现实技术以及神经系统中的手势交互方法。研究结果表明,每年的相关文章数量都有一定程度的增加,并且存在大量与增强现实和不同人体系统(特别是神经系统)的手势交互方法相关的研究。本研究组织和总结了现有的相关工作,这些工作以发表的材料的形式存在,并且与增强现实有关。这项研究将帮助从业者和研究人员了解大多数现有的基于增强现实的手势交互方法的研究,然后可以最终作为未来复杂解剖学学习的支持。

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