Mascitelli Justin R, Gandhi Sirin, Tayebi Meybodi Ali, Lawton Michael T
J Neurosurg. 2018 Jun 29;130(5):1435-1445. doi: 10.3171/2018.2.JNS173141. Print 2019 May 1.
Pathology in the region of the basilar quadrifurcation, anterolateral midbrain, medial tentorium, and interpeduncular and ambient cisterns may be accessed anteriorly via an orbitozygomatic (OZ) craniotomy. In Part 1 of this series, the authors explored the anatomy of the oculomotor-tentorial triangle (OTT). In Part 2, the versatility of the OTT as a surgical workspace for treating vascular pathology is demonstrated.
Sixty patients with 61 vascular pathologies treated within or via the OTT from 1998 to 2017 by the senior author were retrospectively reviewed. Patients were grouped together based on pathology/surgical procedure and included 1) aneurysms (n = 19); 2) posterior cerebral artery (PCA)/superior cerebellar artery (SCA) bypasses (n = 24); 3) brainstem cavernous malformations (CMs; n = 14); and 4) tentorial region dural arteriovenous fistulas (dAVFs; n = 4). The majority of patients were approached via an OZ craniotomy, wide sylvian fissure split, and temporal lobe mobilization to widen the OTT.
Aneurysm locations included the P1-P2 junction (n = 7), P2A segment (n = 9), P2/3 (n = 2), and basilar quadrification (n = 1). Aneurysm treatments included clip reconstruction (n = 12), wrapping (n = 3), proximal occlusion (n = 2), and trapping with (n = 1) or without (n = 1) bypass. Pathologies in the bypass group included vertebrobasilar insufficiency (VBI; n = 3) and aneurysms of the basilar trunk (n = 13), basilar apex (n = 4), P1 PCA (n = 2), and s1 SCA (n = 2). Bypasses included M2 middle cerebral artery (MCA)-radial artery graft (RAG)-P2 PCA (n = 8), M2 MCA-saphenous vein graft (SVG)-P2 PCA (n = 3), superficial temporal artery (STA)-P2 PCA (n = 5) or STA-s1 SCA (n = 3), s1 SCA-P2 PCA (n = 1), V3 vertebral artery (VA)-RAG-s1 SCA (n = 1), V3 VA-SVG-P2 PCA (n = 1), anterior temporal artery-s1 SCA (n = 1), and external carotid artery (ECA)-SVG-s1 SCA (n = 1). CMs were located in the midbrain (n = 10) or pontomesencephalic junction (n = 4). dAVFs drained into the tentorial, superior petrosal, cavernous, and sphenobasal sinuses. High rates of aneurysm occlusion (79%), bypass patency (100%), complete CM resection (86%), and dAVF obliteration (100%) were obtained. The overall rate of permanent oculomotor nerve palsy was 8.3%. The majority of patients in the aneurysm (94%), CM (93%), and dAVF (100%) groups had stable or improved modified Rankin Scale scores.
The OTT is an important anatomical triangle and surgical workspace for vascular lesions in and around the crural and ambient cisterns. The OTT can be used to approach a wide variety of vascular pathologies in the region of the basilar quadrifurcation and anterolateral midbrain.
基底四叉区、中脑前外侧、小脑幕内侧以及脚间池和环池区域的病变可通过眶颧(OZ)开颅术从前路进行处理。在本系列的第1部分中,作者探讨了动眼神经 - 小脑幕三角(OTT)的解剖结构。在第2部分中,展示了OTT作为治疗血管病变的手术操作空间的多功能性。
回顾性分析1998年至2017年资深作者通过OTT内或经OTT治疗的60例患有61种血管病变的患者。根据病变/手术方式将患者分组,包括:1)动脉瘤(n = 19);2)大脑后动脉(PCA)/小脑上动脉(SCA)搭桥术(n = 24);3)脑干海绵状畸形(CMs;n = 14);4)小脑幕区域硬脑膜动静脉瘘(dAVFs;n = 4)。大多数患者通过OZ开颅术、广泛的外侧裂分离和颞叶移位来扩大OTT进行手术。
动脉瘤位置包括P1 - P2交界处(n = 7)、P2A段(n = 9)、P2/3(n = 2)和基底四叉处(n = 1)。动脉瘤治疗方法包括夹闭重建(n = 12)、包裹(n = 3)、近端闭塞(n = 2)以及带(n = 1)或不带(n = 1)搭桥的夹闭术。搭桥组的病变包括椎基底动脉供血不足(VBI;n = 3)以及基底动脉干(n = 13)、基底动脉尖(n = 4)、P1段PCA(n = 2)和s1段SCA(n = 2)的动脉瘤。搭桥方式包括M2段大脑中动脉(MCA) - 桡动脉移植(RAG) - P2段PCA(n = 8)、M2段MCA - 大隐静脉移植(SVG) - P2段PCA(n = 3)、颞浅动脉(STA) - P2段PCA(n = 5)或STA - s1段SCA(n = 3)、s1段SCA - P2段PCA(n = 1)、V3段椎动脉(VA) - RAG - s1段SCA(n = 1)、V3段VA - SVG - P2段PCA(n = 1)、颞前动脉 - s1段SCA(n = 1)以及颈外动脉(ECA) - SVG - s1段SCA(n = 1)。CMs位于中脑(n = 10)或脑桥中脑交界处(n = 4)。dAVFs引流至小脑幕、岩上窦、海绵窦和蝶底窦。动脉瘤闭塞率(79%)、搭桥通畅率(100%)、CMs完全切除率(86%)和dAVFs闭塞率(100%)均较高。永久性动眼神经麻痹的总体发生率为8.3%。动脉瘤组(94%)、CMs组(93%)和dAVFs组(100%)的大多数患者改良Rankin量表评分稳定或改善。
OTT是脚间池和环池及其周围血管病变的重要解剖三角和手术操作空间。OTT可用于处理基底四叉区和中脑前外侧区域的多种血管病变。
