The Relationship Between Jugular Foramen Schwannoma and Surrounding Membrane Structures and Its Surgical Application.

IF 1.7 4区医学 Q3 CLINICAL NEUROLOGY

Operative Neurosurgery Pub Date : 2024-09-27 DOI:10.1227/ons.0000000000001357

Jie Lin, Yonghua Cai, Hai Wang, Xianqiu Liang, Wei Xu, Qixiong Zhou, Sidi Xie, Songtao Qi, Chaohu Wang, Xi'an Zhang

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引用次数: 0

Abstract

Background and objectives: Surgical resection of jugular foramen (JF) schwannomas with minimal neurological complications is challenging because of their difficult-to-access location and complex relationships with surrounding neurovascular structures, even for experienced neurosurgeons. In this article, we elucidate the membranous anatomy of JF schwannomas, with the aim of reducing iatrogenic injury to the lower cranial nerves (LCNs) during surgery.

Methods: The clinical data of 31 consecutive patients with JF schwannomas were reviewed. The relationship between the tumor and the surrounding membranous structures was observed during dissection. Samples were analyzed using Masson's trichrome and immunofluorescence staining to study the membranous characteristics. Histological-radiographic correlations were also summarized.

Results: In this series, we found that all 3 type B, 2 type C, and 8 type D tumors (according to the Kaye-Pellet grading system) were entirely extradural in location, whereas the 18 type A tumors could be subdural (9 cases) or extradural (9 cases), which frequently could not be predicted preoperatively based on whether the tumor had intraforaminal extension. The dural capsule, when present, could be used as an insulating layer to protect LCNs. With this subcapsular dissection technique, postoperative LCN dysfunction occurred in 10 patients (32.3%), which was usually temporary and mild.

Conclusion: The different relationships between the tumor and membranous structures of the JF is related to the distinct point of tumor origin and the complex anatomy of the meningeal dura within the JF. Subcapsular dissection technique is recommended for better preservation of LCNs when the dural capsule is identified.

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颈静脉孔神经纤维瘤与周围膜结构的关系及其手术应用。

背景和目的：由于颈静脉裂孔（JF）精神分裂瘤的位置难以进入，且与周围神经血管结构关系复杂，即使是经验丰富的神经外科医生也很难在手术切除时将神经并发症降至最低。在本文中，我们阐明了 JF 精神分裂瘤的膜解剖结构，旨在减少手术中对下颅神经（LCN）的先天性损伤：方法：回顾性分析了连续 31 例 JF 片状神经瘤患者的临床资料。在解剖过程中观察肿瘤与周围膜结构之间的关系。使用马森三色染色法和免疫荧光染色法对样本进行分析，以研究膜的特征。我们还总结了组织学与放射学的相关性：在该系列研究中，我们发现所有 3 例 B 型肿瘤、2 例 C 型肿瘤和 8 例 D 型肿瘤（根据 Kaye-Pellet 分级系统）的位置完全在硬膜外，而 18 例 A 型肿瘤可能在硬膜下（9 例）或硬膜外（9 例），这往往无法在术前根据肿瘤是否在孔内扩展来预测。硬膜囊存在时，可用作保护 LCN 的绝缘层。采用这种硬膜囊下剥离技术后，10 例患者（32.3%）术后出现 LCN 功能障碍，但通常是暂时的、轻微的：结论：JF 中肿瘤与膜结构之间的不同关系与 JF 中不同的肿瘤起源点和脑膜硬膜的复杂解剖结构有关。当发现硬膜囊时，建议采用囊下剥离技术，以更好地保留 LCN。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Operative Neurosurgery Medicine-Neurology (clinical)

CiteScore

3.10

自引率

13.00%

发文量

530

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