T在立体定向放射外科的跨学科病例讨论和病例规卡塔尔世界杯8强波胆分析划中使用扩展现实技术的潜力:概念验证可用性研究%A Chidambaram,Swathi %A Palumbo,Maria Chiara %A Stifano,Vito %A McKenna,John %A Redaelli,Alberto %A Olivi,Alessandro %A Apuzzo,Michael %A Pannullo,Susan %+威尔康奈尔医学院神经外科,1305 York Ave 9楼,NY, 10021,美国,1 2127462438,scp2002@med.cornell.edu %K混合现实%K增强现实%K扩展现实%K HoloLens %K跨学科团队%K虚拟现实%K脑瘤%K肿瘤%K放射手术%K手术%D 2022 %7 1.6.2022 %9原始论文%J JMIR神经科技%G英文%X背景:扩展现实(XR)是一个囊括了各种技术的术语,如增强现实(AR)和混合现实(MR),允许用户与虚拟模型实时交互。这项技术在神经外科的几个应用中有一个新兴的角色。XR在增强放射外科病例的规划方面是有用的。多学科团队(MDT)评审是放射外科病例规划过程的重要组成部分;在讨论病例时,通常以2D或3D修改的方式查看患者图像。目前用于这项审查的商业可用平台需要改进。目的:我们描述了一种新的可视化应用程序,由我们的开发团队命名为“NeuroVis”,它使用XR微软HoloLens头戴式耳机,在立体定向手术(SRS)病例规划讨论中提供患者神经解剖学的交互式3D可视化。方法:我们给出了6个常见的放射手术适应症的例子,以证明NeuroVis在MDTs中解决常见可视化障碍的效用。 Results: The utility of NeuroVis is demonstrated through 6 common brain tumor SRS cases as a proof-of-concept illustration of the utility of NeuroVis to enhance radiosurgery case discussion by improving visualization of the standard neuroimaging used in radiosurgery treatment planning by MDTs. Conclusions: The NeuroVis application provides several interactive features that produce an enhanced ability to place participating members of an interdisciplinary treatment team on the same visualization plane. This technology, by facilitating team discussions and case review, has the potential to improve the efficiency, efficacy, and safety of radiosurgery treatment planning and, as a result, to optimize patient care. %R 10.2196/36960 %U https://neuro.www.mybigtv.com/2022/1/e36960 %U https://doi.org/10.2196/36960