Medial Pontine Area: A Safe Entry to the Brainstem as a Cut Above the Rest.

Abdullah Emre Tacyildiz, Ozan Barut, Melih Ucer, Yaser Ozgunduz, Necmettin Tanriover
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Abstract

Aim: To examine the fiber-based anatomy of the medial pontine area (MPA), one of the most commonly used brainstem (BS) safe entry zones in neurosurgery.

Material and methods: According to the protocol of Klingler and Ludwig, six BSs were kept in 10% formalin solution for at least 2 months. After removing the arachnoid mater, pia mater, and vascular structures, the samples were frozen at -16°C for at least 2 weeks. White matter (WM) pathways of the BS were gradually examined using fiber dissections under a surgical microscope.

Results: Safe entry zones of the BS were defined and investigated, focusing on the ventral pontine region and pontomesencephalic junction. Because of the lack of fibers on the anterior surface of the pons, the MPA formed a safe surgical area. The MPA, strategically positioned between the descending corticospinal tracts and extending securely to the anterior limit of the medial lemniscus, serves as a protective pathway, creating a secure environment for accessing safe entry zones within the BS during surgery.

Conclusion: The position of the MPA has the potential to provide a combined surgical path with superiorly located BS entry zones, resulting in a larger surgical area. Entry to the BS via the MPA increases the accessible surface area in the ventral pons and can be combined with the other perioculomotor safe regions outlined. Our findings might lead to safer endoscopic endonasal transclival interventions for intrinsic pontine lesions.

内侧桥脑区安全进入脑干,一马当先。
目的:腹侧脑干(BS)的安全进入区最好远离颅神经纤维及其核团,包含最少的纤维,并应与功能性降束和升束分开。具体而言,对位于脑桥前表面的内在病变的处理仍存在争议、挑战和担忧。我们的研究旨在重新审视内侧桥脑区(MPA)的纤维解剖,该区域被认为是神经外科最常用的 BS 安全进入区之一:按照 Klingler J. 和 Ludwig E.提出的方案,将六个脑干在 10%福尔马林溶液中保存至少两个月。在手术显微镜下利用纤维解剖逐步探索脑白质(WM)的通路:结果:确定并探查了 BS 的安全进入区,特别强调了腹侧桥脑区域和桥脑交界处。由于脑桥前表面纤维稀少,MPA形成了一个安全的手术区域。MPA 位于皮质脊髓降支束之间的绝佳位置,以及其返回内侧半月板前缘的安全深度,为 BS 安全进入区构建了手术庇护所:结论:MPA的枢纽位置有可能提供一条与位于上部的BS进入区相结合的手术路径,从而创造出更广阔的手术区域。通过 MPA 进入 BS 增加了可进入腹侧大脑的表面区域,并可与其他已描述的周围运动安全区域相结合。我们的研究可能有助于内窥镜经鼻穿刺介入治疗脑桥固有病变,使其更加安全。
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