‘Peacock tail’ Clipping Technique for a Giant Middle Cerebral Artery Aneurysm: A Technical Note

M. Ismail, Noor A. Hummadi, N. Al-Waely, R. Hadi, Saja A. Albanaa, Sadik K. Daily, M. Shamkhi, Samer S. Hoz
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引用次数: 0

Abstract

Background: Giant middle cerebral artery (MCA) aneurysms are surgically challenging lesions. Because of the complexity and variability of these aneurysms, a customized surgical technique is often needed for each case. In this article, we present a modified clip reconstruction technique of a ruptured complex giant partially thrombosed middle cerebral artery aneurysm. Case description: The aneurysm was exposed using the pterional approach. Following proximal control, the aneurysm sac was decompressed. Then, we applied permanent clips to reconstruct the aneurysm neck. The configuration of the aneurysm mandated a tailored clipping pattern to account for residual aneurysm sac sagging beyond the confinement of the single inflow and the two outflow channels. As a result, clipping in a fanning pattern was done to obliterate the lateral extensions while retaining a smooth curvature of the reconstructed neck. This final clipping pattern mirrored the arrangement of the peacock tail feathers. The 'peacock tail’ clipping technique can be thought of as a variation of the traditional straight tandem clipping, also known as 'picket-fence,' applied to less complicated aneurysm configurations. Conclusion: Giant MCA aneurysms may demand an adaptive clipping technique to account for the unique geometry of each aneurysm. In this paper, we described the 'peacock tail’ clipping technique for clip reconstruction of a giant complex partially thrombosed M2 MCA aneurysm as a modification of the conventional tandem clipping technique.
巨大大脑中动脉瘤的“孔雀尾”夹断技术:技术说明
背景:巨大的大脑中动脉(MCA)动脉瘤是具有外科挑战性的病变。由于这些动脉瘤的复杂性和可变性,通常需要针对每个病例采用定制的手术技术。在这篇文章中,我们提出了一种改良的夹子重建技术,用于破裂的复杂的巨大部分血栓形成的大脑中动脉瘤。病例描述:动脉瘤采用翼位入路暴露。在近端控制后,对动脉瘤囊进行减压。然后,我们使用永久夹子重建动脉瘤颈部。动脉瘤的结构要求量身定制的剪切模式,以解释残留的动脉瘤囊在单一流入通道和两个流出通道的限制下下垂。因此,在扇形模式下进行修剪以消除侧伸,同时保留重建颈部的平滑曲率。最后的剪接图案反映了孔雀尾羽的排列。“孔雀尾”夹持技术可以被认为是传统直连夹持技术的一种变体,也被称为“尖桩栅栏”,适用于不太复杂的动脉瘤结构。结论:巨型中动脉动脉瘤可能需要适应性夹闭技术,以考虑每个动脉瘤独特的几何形状。在本文中,我们描述了“孔雀尾”夹技术用于夹重建巨大复杂部分血栓的M2 MCA动脉瘤,作为传统串联夹技术的改进。
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
CiteScore
0.10
自引率
0.00%
发文量
34
审稿时长
12 weeks
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