Human Neurosciences Department, Neurosurgery Division, "Sapienza" University, Italy.
Human Neurosciences Department, Neurosurgery Division, "Sapienza" University, Italy.
Neurocirugia (Astur : Engl Ed). 2022 Sep-Oct;33(5):219-226. doi: 10.1016/j.neucie.2021.04.008.
The purpose of the study was to create computer-aided design models of the sphenoid sinus with a free-source software in order to perform a preoperative planning during trans-sphenoidal endoscopic surgery (TES) and clarify the three-dimensional anatomical features of the sphenoid sinus and its surrounding structures.
For each patient a 3D volume rendering of the sphenoid sinus was obtained from a thin slice head and maxilla-facial CT scan using a free-source DICOM viewer. The 3D models obtained preoperatively were examined preoperatively by six neurosurgeons in order to identify the boundaries of the sella.
For the main anatomical landmark, all of the observers were able to recognize the anatomical structure at a rate ranging from 80 to 98%, 28 to 60% and 25 to 58% for expert (n=3), inexpert (n=3) and the entire group of observers (n=6), respectively. The analysis of the data shows that both observation groups presented a lower recognition rate of the following parameters: right and left medial and lateral optocarotid recesses and tumor prominence, however, the sellar prominence, clival recess, planum sphenoidalis, right and left ICA prominence, right and left optic prominences represent the main anatomical landmarks to be recognized during TES immediately before the opening of the sellar floor.
The use of a preoperative 3D imaging is not in itself a novelty in the literature, however the fact that a simple tool obtained with a free-source software like Horos can represent a considerable help in surgical practice without resorting to the use of more complex software and expensive represents the real utility of this work.
本研究的目的是使用免费开源软件创建蝶窦的计算机辅助设计模型,以便在经蝶窦内镜手术(TES)前进行规划,并阐明蝶窦及其周围结构的三维解剖特征。
从每位患者的薄层头部和颌面 CT 扫描中使用免费开源 DICOM 查看器获得蝶窦的 3D 容积渲染。术前获得的 3D 模型由 6 名神经外科医生进行术前检查,以确定鞍底的边界。
对于主要的解剖标志,所有观察者的识别率在 80%到 98%之间,而专家组(n=3)、非专家组(n=3)和整个观察组(n=6)的识别率分别为 28%到 60%和 25%到 58%。数据分析表明,两个观察组对以下参数的识别率均较低:右侧和左侧内、外侧视神经颈动脉隐窝和肿瘤突出,但鞍底凸起、斜坡隐窝、蝶骨体、右侧和左侧颈内动脉凸起、右侧和左侧视神经凸起是在打开鞍底之前在 TES 中需要识别的主要解剖标志。
术前 3D 成像在文献中并不是什么新鲜事,但使用像 Horos 这样的免费开源软件获得的简单工具可以在不依赖更复杂软件和昂贵工具的情况下,在手术实践中提供相当大的帮助,这是其真正的实用价值。
