Department of General Surgery, No. 324 Hospital of PLA, 29# East Jianxin Road, Chongqing 400020, China.
Int J Surg. 2010;8(1):72-8. doi: 10.1016/j.ijsu.2009.11.005. Epub 2009 Nov 26.
To develop a technique for converting computed tomography (CT) data into a fully three-dimensional (3D) virtual reality (VR) environment. Preoperative simulation in 3D VR facilitates liver resection owing to the ability to view the tumor and its relative vessels.
3D-reconstruction of the liver was restored from spiral CT data by using LiVirtue software and the Dextrobeam (Volume Interactions Pte Ltd, Singapore) was applied to view this 3D model in the VR environment. In order to design a rational plan of operation, the liver and its anatomic structure were reconstructed to illuminate the location of the tumor and its related vessels.
In our series of 38 hepatic resections, there was no significant difference between preoperatively calculated volumes of virtual resection part and actual volumes of resected specimen's weight. The LiVirtue can provide accurate and rapid results of individual hepatic volume and the character of anatomy structures. These models can be viewed and manipulated in the VR environment and on a personal computer. This preoperative simulation allowed surgeons to dissect the liver with reduced complications. Preoperative planning and intra-operative navigation based on this technique ensured the safety of liver resection.
3D models of the liver and its detailed structure articulate the possibility of intricate liver resection and the risk of the operation. This preoperative estimation from a 3D model of the liver benefits complicated liver resections greatly.
开发一种将计算机断层扫描(CT)数据转换为完全三维(3D)虚拟现实(VR)环境的技术。由于能够观察肿瘤及其相关血管,3D VR 术前模拟有助于进行肝切除术。
使用 LiVirtue 软件从螺旋 CT 数据中重建肝脏 3D 重建,然后使用 Dextrobeam(新加坡 Volume Interactions Pte Ltd)在 VR 环境中查看此 3D 模型。为了设计合理的手术方案,重建肝脏及其解剖结构以照亮肿瘤及其相关血管的位置。
在我们的 38 例肝切除系列中,虚拟切除部分的术前计算体积与切除标本的实际重量之间没有显着差异。LiVirtue 可以提供个体肝体积和解剖结构特征的准确快速结果。这些模型可以在 VR 环境和个人计算机上进行查看和操作。这种术前模拟使外科医生能够减少并发症进行肝脏解剖。基于该技术的术前规划和术中导航确保了肝切除术的安全性。
肝脏及其详细结构的 3D 模型阐明了复杂肝切除术的可能性和手术风险。从肝脏的 3D 模型进行术前估计极大地有益于复杂的肝切除术。
