Surgical anatomy of the inferior hypophyseal artery and its relevance for endoscopic endonasal skull base surgery.

IF 3.5 2区医学 Q1 CLINICAL NEUROLOGY Journal of neurosurgery Pub Date : 2024-11-29 DOI:10.3171/2024.7.JNS24693

Limin Xiao, Muhammad Reza Arifianto, Mariano Rinaldi, Jonathan Rychen, Min Ho Lee, Maximiliano Alberto Nunez, Yuanzhi Xu, Vera Vigo, Aaron Cohen-Gadol, Juan C Fernandez-Miranda

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Abstract

Objective: The inferior hypophyseal arteries (IHAs) are intimately related to pituitary and cavernous sinus (CS) lesions. There is still no anatomical study specifically analyzing the IHAs. The aim of this study was to investigate the surgical anatomy and variations of the IHA, and to translate this knowledge into surgical practice.

Methods: Twenty anatomical specimens with vascular injection were used for endoscopic and transcranial dissection. The origin, arrangement patterns of the meningeal hypophyseal trunk (MHT), segmentation, trajectory, branching pattern in each segment, and dominance of the IHAs were investigated.

Results: The IHA was identified in all 40 sides (100%). The IHA originated from the MHT in 37 sides (92.5%) and directly from the cavernous internal carotid artery in 3 sides (7.5%). According to the relationship of the IHA with the MHT, dorsal meningeal artery (DMA), and tentorial artery (TA), the authors classified five patterns of IHA origin: type A (common trunk) was found in 16 sides (40%), type B (IHA-DMA branch trunk) was found in 8 sides (20%), type C (IHA-DMA stem trunk) was found in 7 sides (17.5%), type D (IHA-TA trunk) was found in 6 sides (15%), and type E (independent type) was found in 3 sides (7.5%). All IHAs could be divided into proximal (cavernous) and distal (glandular) segments. Four branching patterns of the proximal segment were observed: 0 branches (12.5%), 1 branch (42.5%), 2 branches (40%), and 3 branches (5%). Three patterns of the distal IHA were noticed: 1) single (25%), 2) bifurcation (65%), and 3) trifurcation (10%). The IHAs entered the posterior third of the medial wall of the CS in 75%, intermediate third in 17.5%, and anterior third in 7.5%. The proximal IHA ran in close relation with the lower third of the posterior clinoid process (PCP) in 80%, middle third in 15%, and upper third in 5%.

Conclusions: The IHA can be divided into proximal and distal segments. Its proximal segment is most often found crossing the CS at the level of the lower third of the PCP and entering the posterior third of the medial wall of the CS. A detailed understanding of the surgical anatomy of the IHA and its variability will help surgeons dealing with challenging lesions within the CS and when performing transcavernous approaches, interdural posterior clinoidectomies, and pituitary gland transpositions.

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垂体下动脉的外科解剖及其与内窥镜鼻内颅底手术的关系。

目的：垂体下动脉（IHAs）与垂体海绵状窦（CS）病变密切相关。目前还没有专门分析iha的解剖学研究。本研究的目的是研究IHA的外科解剖和变异，并将这些知识转化为外科实践。方法：采用血管注射解剖标本20例，进行内镜和经颅解剖。研究了脑膜垂体干（MHT）的起源、排列模式、分割、轨迹、各节段分支模式和iha的优势性。结果：40侧全检出IHA（100%）。37侧（92.5%）的IHA来源于MHT， 3侧（7.5%）的IHA直接来源于颈内海绵状动脉。根据IHA与MHT、脑膜背动脉（DMA）、幕动脉（TA）的关系，将IHA的来源分为5种类型：A型（共干）16侧（40%），B型（IHA-DMA分支干）8侧（20%），C型（IHA-DMA干）7侧（17.5%），D型（IHA-TA干）6侧（15%），E型（独立型）3侧（7.5%）。所有iha可分为近端（海绵状）和远端（腺状）节段。近段有4种分支形态：0支（12.5%）、1支（42.5%）、2支（40%）、3支（5%）。远端IHA有三种类型：1)单一（25%），2)分岔（65%）和3)分岔（10%）。iha进入CS内侧壁后三分之一（75%），中间三分之一（17.5%），前三分之一（7.5%）。近端IHA与后斜突（PCP）下三分之一密切相关的比例为80%，中间三分之一为15%，上三分之一为5%。结论：IHA可分为近节段和远节段。它的近段通常在PCP的下三分之一处穿过CS并进入CS内侧壁的后三分之一。详细了解IHA的外科解剖及其变异性将有助于外科医生处理CS内具有挑战性的病变，以及在进行经海绵体入路、硬膜间后结节切除术和垂体转位时。

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

Journal of neurosurgery 医学-临床神经学

CiteScore

7.20

自引率

7.30%

发文量

1003

审稿时长

1 months

期刊介绍： The Journal of Neurosurgery, Journal of Neurosurgery: Spine, Journal of Neurosurgery: Pediatrics, and Neurosurgical Focus are devoted to the publication of original works relating primarily to neurosurgery, including studies in clinical neurophysiology, organic neurology, ophthalmology, radiology, pathology, and molecular biology. The Editors and Editorial Boards encourage submission of clinical and laboratory studies. Other manuscripts accepted for review include technical notes on instruments or equipment that are innovative or useful to clinicians and researchers in the field of neuroscience; papers describing unusual cases; manuscripts on historical persons or events related to neurosurgery; and in Neurosurgical Focus, occasional reviews. Letters to the Editor commenting on articles recently published in the Journal of Neurosurgery, Journal of Neurosurgery: Spine, and Journal of Neurosurgery: Pediatrics are welcome.