Ivo Peto, Elliot Pressman, Keaton Piper, Gabriel Flores-Milan, Casey Ryan, Kunal Vakharia, Harry van Loveren, Siviero Agazzi
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引用次数: 0
Abstract
Background and objectives: Transection of the free edge of tentorium (FET) might be necessary when approaching cavernous sinus lesions, clip placement in certain posterior communicating artery aneurysms, or during transpetrosal and retrosigmoid transtentorial approaches. No anatomic study has investigated the relationship of the trochlear and oculomotor nerve and FET in an attempt to identify a safe zone for such maneuver.
Methods: Ten embalmed specimens (20 sides) were studied and the following morphometric measurements were taken using digital microcalipers: trochlear (TP) to oculomotor porus (OP), length of the intratentorial segment of cranial nerve (CN) IV, nerve free FET, and distance along the oculomotor (CN III) from its OP to CN III/trochlear (CN IV) crossing and angle between the long-axis petrous ridge and TP (petrotrochlear angle).
Results: The CN IV pierced the deep layer of the FET in all cases at a mean distance 8.11 mm (4.43-11.33) posterior to the OP, measured along the FET. CN IV continued within the tentorial edge for a mean of 6.17 mm (3.18-11.33) before entering the cavernous sinus at a mean distance of 1.9 mm (0-5.46 mm) from the posterior-most aspect of the OP. A nerve-free portion of FET was 1.93 mm (mean) (0-5.46). No nerve-free FET segment (<1 mm) was observed in 4 sides (20%), and a nerve-free FET segment <2.00 mm was seen in 55% of cases. The mean distance from OP to the CN III/IV crossing was 10.17 mm (1.00-15.57). The mean petrotrochlear angle was 164.49° (140.01-183.85), and >175° in 4 specimens (20%).
Conclusion: Our data confirm presence of the intratentorial segment of CN IV. Transection of the FET carries the lowest risk of CN IV injury if performed < 2 mm or >10 mm posterior to the OP, or posterior to intersection of the FET and a virtual extension of a petrous ridge.
背景和目的:在接近海绵窦病变、某些后交通动脉瘤的夹片置入、或经蝶窦和后蝶窦经胸膜入路时,可能需要切断游离的触角边缘(FET)。目前还没有解剖学研究调查过耳蜗神经和眼球运动神经与 FET 的关系,以确定此类操作的安全区域:研究了 10 个防腐标本(20 面),并使用数字显微卡尺进行了以下形态测量:颅骨(TP)至眼动孔(OP)、颅神经(CN)IV 腔内段的长度、神经游离 FET、沿眼动(CN III)从其 OP 至 CN III/颅神经(CN IV)交叉处的距离以及长轴枕脊与颅骨之间的角度(颅骨角):在所有病例中,CN IV 在 OP 后方平均距离 8.11 mm(4.43-11.33)处刺入 FET 深层,该距离是沿 FET 测量的。CN IV在触角边缘内平均延伸了6.17毫米(3.18-11.33),然后在距离OP最后方平均1.9毫米(0-5.46毫米)处进入海绵窦。FET 的无神经部分为 1.93 毫米(平均值)(0-5.46 毫米)。4例标本(20%)中没有无神经的FET段(175°):我们的数据证实了 CN IV 腔内段的存在。如果在 OP 后方 < 2 mm 或 >10 mm 处,或在 FET 与岩脊虚拟延伸交汇处的后方进行 FET 截断,则 CN IV 损伤的风险最低。
期刊介绍:
Operative Neurosurgery is a bi-monthly, unique publication focusing exclusively on surgical technique and devices, providing practical, skill-enhancing guidance to its readers. Complementing the clinical and research studies published in Neurosurgery, Operative Neurosurgery brings the reader technical material that highlights operative procedures, anatomy, instrumentation, devices, and technology. Operative Neurosurgery is the practical resource for cutting-edge material that brings the surgeon the most up to date literature on operative practice and technique
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