Youngjun Cho, George Spirou, Summer J. Decker, Jonathan M. Ford, Matthew Mifsud, Eric Sommers, Yael Bensoussan
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引用次数: 0
Abstract
Objective
We hypothesized that a method to segment human airways from clinical cases and import them into a case presentation environment in Virtual Reality (VR) could be developed to model and visualize complex airway stenosis for efficient surgical planning.
Methods
One normal and two pathological airways modeled from CT scans at a slice thickness of 0.625 mm were processed. A multidisciplinary team composed of airway surgeons, VR engineers, educators, and radiologists collaborated to create a clinically relevant VR rendering and explanatory Narrations of the three clinical cases. Segmentation and postprocessing were completed in the Mimics Innovation Suite v24 from Materialize. Structures were segmented from the level of bifurcation of common carotid arteries to the level of bifurcation of the main bronchi, including cartilaginous and bony airway structures, vessels, and soft tissues. They were then postprocessed into 3D image volumes and imported into syGlass (IstoVisio Inc.), a VR software.
Results
Direct visualization and free manipulation of these 3D airway models within the VR environment provided improved geometrical and anatomical details compared to traditional two-dimensional (2D) CT. Then, specialized presentation and active learning tools developed for scientific communication using the VR environment permitted the creation of VR Narrations to explain pathological cases.
Conclusion
The method to segment human airways from clinical cases used in this paper, combined with intuitive VR tools to overlay segmentation and image data in an active learning environment, shows potential in the use of 3D airway modeling and VR in clinical practice for the description and surgical planning of complex airways. Further work is needed to validate the use of these models in clinical practice and patient education.
目的:我们假设可以开发一种从临床病例中分割人类气道并将其导入虚拟现实(VR)病例呈现环境的方法,以模拟和可视化复杂气道狭窄,从而有效地制定手术计划。方法:对0.625 mm CT扫描的正常气道和病理气道各1条进行处理。一个由气道外科医生、VR工程师、教育工作者和放射科医生组成的多学科团队合作创建了一个临床相关的VR渲染和三个临床病例的解释性叙述。分割和后处理在Materialize的Mimics Innovation Suite v24中完成。从颈总动脉分岔水平到主支气管分岔水平进行结构分割,包括软骨和骨性气道结构、血管和软组织。然后将它们后处理成3D图像卷,并导入到虚拟现实软件syGlass (IstoVisio Inc.)中。结果:与传统的二维(2D) CT相比,在VR环境中直接可视化和自由操作这些3D气道模型提供了更好的几何和解剖细节。然后,使用VR环境为科学交流开发的专门演示和主动学习工具允许创建VR叙事来解释病理病例。结论:本文所采用的从临床病例中分割人体气道的方法,结合直观的VR工具在主动学习环境中叠加分割和图像数据,显示了3D气道建模和VR在临床实践中用于复杂气道描述和手术计划的潜力。需要进一步的工作来验证这些模型在临床实践和患者教育中的应用。证据等级:四级。
期刊介绍:
Head & Neck is an international multidisciplinary publication of original contributions concerning the diagnosis and management of diseases of the head and neck. This area involves the overlapping interests and expertise of several surgical and medical specialties, including general surgery, neurosurgery, otolaryngology, plastic surgery, oral surgery, dermatology, ophthalmology, pathology, radiotherapy, medical oncology, and the corresponding basic sciences.
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