真实大脑的虚拟解剖：摄影 3D 模型与虚拟现实的整合及其对神经外科住院医师教育的影响。

Virtual dissection of the real brain: integration of photographic 3D models into virtual reality and its effect on neurosurgical resident education.

机构信息

1Department of Neurosurgery, Ajou University Hospital, Ajou University School of Medicine, Suwon.

2Department of Neurosurgery, Severance Hospital, Yonsei University College of Medicine, Seoul.

出版信息

Neurosurg Focus. 2021 Aug;51(2):E16. doi: 10.3171/2021.5.FOCUS21193.

DOI:10.3171/2021.5.FOCUS21193

PMID:34333482

Abstract

OBJECTIVE

Virtual reality (VR) is increasingly being used for education and surgical simulation in neurosurgery. So far, the 3D sources for VR simulation have been derived from medical images, which lack real color. The authors made photographic 3D models from dissected cadavers and integrated them into the VR platform. This study aimed to introduce a method of developing a photograph-integrated VR and to evaluate the educational effect of these models.

METHODS

A silicone-injected cadaver head was prepared. A CT scan of the specimen was taken, and the soft tissue and skull were segmented to 3D objects. The cadaver was dissected layer by layer, and each layer was 3D scanned by a photogrammetric method. The objects were imported to a free VR application and layered. Using the head-mounted display and controllers, the various neurosurgical approaches were demonstrated to neurosurgical residents. After performing hands-on virtual surgery with photographic 3D models, a feedback survey was collected from 31 participants.

RESULTS

Photographic 3D models were seamlessly integrated into the VR platform. Various skull base approaches were successfully performed with photograph-integrated VR. During virtual dissection, the landmark anatomical structures were identified based on their color and shape. Respondents rated a higher score for photographic 3D models than for conventional 3D models (4.3 ± 0.8 vs 3.2 ± 1.1, respectively; p = 0.001). They responded that performing virtual surgery with photographic 3D models would help to improve their surgical skills and to develop and study new surgical approaches.

CONCLUSIONS

The authors introduced photographic 3D models to the virtual surgery platform for the first time. Integrating photographs with the 3D model and layering technique enhanced the educational effect of the 3D models. In the future, as computer technology advances, more realistic simulations will be possible.

摘要

目的

虚拟现实（VR）越来越多地用于神经外科的教育和手术模拟。到目前为止，VR 模拟的 3D 源来自于缺乏真实色彩的医学图像。作者从解剖尸体制作了摄影 3D 模型，并将其集成到 VR 平台中。本研究旨在介绍一种开发摄影集成 VR 的方法，并评估这些模型的教育效果。

方法

准备一具注入硅胶的尸体头。对标本进行 CT 扫描，并将软组织和颅骨分割成 3D 对象。将尸体逐层解剖，然后通过摄影测量法对每层进行 3D 扫描。将物体导入免费的 VR 应用程序并分层。神经外科住院医师使用头戴式显示器和控制器展示各种神经外科入路。在使用摄影 3D 模型进行虚拟手术操作后，从 31 名参与者中收集了反馈调查。

结果

摄影 3D 模型无缝集成到 VR 平台中。使用摄影集成 VR 成功完成了各种颅底入路。在虚拟解剖过程中，根据颜色和形状识别出标志性的解剖结构。受访者对摄影 3D 模型的评分高于传统 3D 模型（分别为 4.3 ± 0.8 与 3.2 ± 1.1；p = 0.001）。他们表示，使用摄影 3D 模型进行虚拟手术有助于提高他们的手术技能，并开发和研究新的手术方法。

结论

作者首次将摄影 3D 模型引入虚拟手术平台。将照片与 3D 模型和分层技术集成提高了 3D 模型的教育效果。随着计算机技术的进步，未来将有可能实现更逼真的模拟。

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真实大脑的虚拟解剖：摄影 3D 模型与虚拟现实的整合及其对神经外科住院医师教育的影响。

Virtual dissection of the real brain: integration of photographic 3D models into virtual reality and its effect on neurosurgical resident education.

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METHODS

RESULTS

CONCLUSIONS

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结果

结论

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