Department of Neurosurgery, Huashan Hospital of Fudan University, Shanghai, China.
J Neurosurg. 2010 Sep;113(3):479-85. doi: 10.3171/2009.9.JNS091012.
In this paper the authors' goal was to evaluate the feasibility and efficacy of a virtual reality (VR) system in preoperative planning for microvascular decompression (MVD) procedures treating idiopathic trigeminal neuralgia and hemifacial spasm. The system's role in surgical simulation and training was also assessed.
Between May 2008 and April 2009, the authors used the Dextroscope system to visualize the neurovascular complex and simulate MVD in the cerebellopontine angle in a VR environment in 16 patients (6 patients had trigeminal neuralgia and 10 had hemifacial spasm). Reconstructions were carried out 2-3 days before MVD. Images were printed in a red-blue stereoscopic format for teaching and discussion and were brought into the operating room to be compared with real-time intraoperative findings.
The VR environment was a powerful aid for spatial understanding of the neurovascular relationship in MVD for operating surgeons and trainees. Through an initial series of comparison/confirmation experiences, the senior neurosurgeon became accustomed to the system. He could predict intraoperative problems and simulate surgical maneuvering, which increased his confidence in performing the procedure.
The Dextroscope system is an easy and rapid method to create a stereoscopic neurovascular model for MVD that is highly concordant with intraoperative findings. It effectively shortens the learning curve and adds to the surgeon's confidence.
本文作者旨在评估虚拟现实(VR)系统在微血管减压术(MVD)治疗原发性三叉神经痛和面肌痉挛术前规划中的可行性和疗效。同时评估该系统在手术模拟和培训中的作用。
2008 年 5 月至 2009 年 4 月,作者使用 Dextroscope 系统在 VR 环境中可视化神经血管复合体,并模拟小脑脑桥角中的 MVD,共 16 例患者(6 例三叉神经痛,10 例面肌痉挛)接受了该模拟。重建在 MVD 前 2-3 天进行。图像以红蓝立体格式打印用于教学和讨论,并带入手术室与实时术中发现进行比较。
VR 环境为手术医生和学员提供了一种强大的辅助手段,帮助其理解 MVD 中神经血管关系的空间关系。通过一系列初步的对比/确认经验,资深神经外科医生习惯了该系统。他能够预测术中问题并模拟手术操作,从而增强了他进行手术的信心。
Dextroscope 系统是一种创建与术中发现高度一致的 MVD 立体神经血管模型的简便、快速方法。它有效地缩短了学习曲线,并增加了外科医生的信心。
