Department of Neurosurgery, Ciudad Real General University Hospital, Ciudad Real, Spain; University of Alcalá, Alcalá de Henares, Madrid, Spain.
Department of Neurosurgery, Alicante General University Hospital, Alicante, Spain.
Clin Neurol Neurosurg. 2024 Oct;245:108511. doi: 10.1016/j.clineuro.2024.108511. Epub 2024 Aug 19.
Surgery of lesions in the posterior wall of the third ventricle requires great expertise due to its deep location and important surrounding structures. This region has been traditionally reached through a supracerebellar infratentorial approach, but new options have emerged, especially with the development of neuroendoscopy.
One formalin-fixed cadaver human head was dissected. Five different endoscopic approaches were performed: interhemispheric transcallosal transchoroidal, frontal transforaminal transchoroidal, supraorbital subfrontal translamina terminalis, expanded endonasal, and supracerebellar infratentorial. An anatomical description of the different approaches was conducted and quantitative measurements (craniocaudal and latero-lateral distances) were taken using the StealthStation ® workstation after performing a CT scan of the specimen.
The interhemispheric transcallosal transchoroidal, frontal transforaminal transchoroidal, and supraorbital subfrontal translamina terminalis approaches provided great view of all the structures of the posterior wall of the third ventricle. Maximum craniocaudal distance was obtained through the supraorbital subfrontal translamina terminalis approach (10.6 mm), with great difference from the expanded endonasal approach (5.2 mm). The widest latero-lateral distance from inside the third ventricle was achieved through the interhemispheric transcallosal transchoroidal approach (4.6 mm), similar to the expanded endonasal (4.1 mm), and differing from the supraorbital subfrontal translamina terminalis (2.4 mm).
The endoscopic approaches provided an adequate alternative to more traditional microsurgical approaches to the posterior wall of the third ventricle, with a great view of all its structures. The selection of the approach must be taken under consideration in each case.
由于第三脑室后壁位置深在,周围结构重要,因此对病变进行手术需要丰富的专业知识。该区域传统上通过小脑幕上经小脑幕下入路到达,但随着神经内镜技术的发展,出现了新的选择。
对 1 例福尔马林固定的人头标本进行解剖。共进行了 5 种不同的内镜入路:经胼胝体-透明隔-脉络膜、额部经颅前窝-脉络膜、眶上锁孔经额底终板、扩大经鼻入路和小脑幕上经小脑幕下入路。对不同入路进行解剖描述,并在对标本进行 CT 扫描后使用 StealthStation ®工作站进行定量测量(颅尾距和内外侧距)。
经胼胝体-透明隔-脉络膜、额部经颅前窝-脉络膜和眶上锁孔经额底终板入路可以很好地观察第三脑室后壁的所有结构。眶上锁孔经额底终板入路获得的颅尾距最大(10.6mm),与扩大经鼻入路(5.2mm)有很大差异。从第三脑室内部获得的最宽内外侧距是通过经胼胝体-透明隔-脉络膜入路(4.6mm),与扩大经鼻入路(4.1mm)相似,与眶上锁孔经额底终板入路(2.4mm)不同。
内镜入路为第三脑室后壁提供了一种替代传统显微手术入路的有效方法,可以很好地观察所有结构。在每种情况下,都必须考虑选择合适的入路。
