颅底前外侧锁孔经眶路径:解剖学对比研究。

IF 3.3 2区 医学 Q2 CLINICAL NEUROLOGY Neurosurgical focus Pub Date : 2024-04-01 DOI:10.3171/2024.2.FOCUS23877
Maria Karampouga, Anna K Terrarosa, Bhuvic Patel, Kyle Affolter, Eric W Wang, Garret W Choby, Roxana Fu, Gabrielle R Bonhomme, S Tonya Stefko, Michael M McDowell, Carl H Snyderman, Paul A Gardner, Georgios A Zenonos
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引用次数: 0

摘要

目的:虽然锁孔经眶入路越来越受到重视,但尚未对其适应症进行充分的比较研究。在本研究中,作者将这些方法也定义为经蝶入路--即利用蝶骨翼的不同切面进入颅内,并试图对四种主要方法进行比较:1) 通过外侧眼眶切口进行外侧开眶术(LatOrb);2) 通过眼睑切口进行改良眶颧切口(ModOzPalp);3) 通过眉部切口进行改良眶颧切口(ModOzEyB);4) 通过眉部切口进行眶上开颅术(SupraOrb)及其扩大版(SupraTransOrb):方法:在神经解剖实验室进行尸体解剖。为了划定颅底暴露范围,使用了四颗福尔马林固定的头颅,每种方法各有两侧。通过图像引导评估外部界限,并绘制相应的地图和图解。第五个头颅是纯内窥镜解剖的,只是为了便于了解经颅骨概念。对定性特征也进行了严格检查:结果:事实证明,LatOrb在颅中窝(MCF)的应用更为广泛,而在颅前窝(ACF)的暴露则仅限于蝶骨脊上方的一小块区域。前颅窝切除术是可行的,但视神经管顶部的暴露情况并不理想。ModOzPalp 可以充分暴露 ACF 和 MCF。其外侧轨迹允许从下往上观察,但进入内侧前颅底(嗅沟)受到限制。ModOzEyB 也能广泛暴露 ACF 和 MCF,但与 ModOzPalp 相比,其轨迹更多是由上至下,因此更适合内侧前颅底甚至对侧的病变。前侧颅骨切除术可改善视神经管的可视性。SupraOrb 主要提供前颅底暴露,中窝暴露极少。可以进行前侧颅底切除术,但无法直接观察眶上裂。如果将外侧蝶骨翼向下钻孔,则可在一定程度上进入中窝,这就是用途广泛的 "SupraTransOrb":上述所有方法都是从一个特定的方位点使用蝶骨翼作为颅底走廊,因此被称为经翼入路。它们的特殊性要求对病例进行仔细选择,以有效、安全地完成手术目标。
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Anterolateral keyhole transorbital routes to the skull base: a comparative anatomical study.

Objective: Although keyhole transorbital approaches are gaining traction, their indications have not been adequately studied comparatively. In this study the authors have defined them also as transwing approaches-meaning that they use the different facies of the sphenoid wing for cranial entry-and sought to compare the four major ones: 1) lateral orbitocraniotomy through a lateral canthal incision (LatOrb); 2) modified orbitozygomatic approach through a palpebral incision (ModOzPalp); 3) modified orbitozygomatic approach through an eyebrow incision (ModOzEyB); and 4) supraorbital craniotomy through an eyebrow incision (SupraOrb), coupled with its expanded version (SupraTransOrb).

Methods: Cadaveric dissections were performed at the neuroanatomy lab. To delineate the skull base exposure, four formalin-fixed heads were used, with two sides dedicated to each approach. The outer limits were assessed via image guidance and were mapped and illustrated accordingly. A fifth head was dissected purely endoscopically, just to facilitate an overview of the transwing concept. Qualitative features were also rigorously examined.

Results: The LatOrb proves to be more versatile in the middle cranial fossa (MCF), whereas the anterior cranial fossa (ACF) exposure is limited to a small area above the sphenoid ridge. An anterior clinoidectomy is possible; however, the exposure of the roof of the optic canal is suboptimal. The ModOzPalp adequately exposes both the ACF and MCF. Its lateral trajectory allows the inferior to superior view, yet there is restricted access to the medial anterior skull base (olfactory groove). The ModOzEyB also provides extensive exposure of the ACF and MCF, but has a more superior to inferior trajectory compared to the ModOzPalp, making it more appropriate for pathology reaching the medial anterior skull base or even the contralateral side. The anterior clinoidectomy is performed with improved visualization of the optic canal. The SupraOrb provides mainly anterior cranial base exposure, with minimal middle fossa. An anterior clinoidectomy can be performed, but without any direct observation of the superior orbital fissure. Some MCF access can be accomplished if the lateral sphenoid wing is drilled inferiorly, leading to its highly versatile variant, the SupraTransOrb.

Conclusions: All the aforementioned approaches use the sphenoid wing as skull base corridor from a specific orientation point; hence these are designated as transwing approaches. Their peculiarities mandate careful case selection for the effective and safe completion of the surgical goals.

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来源期刊
Neurosurgical focus
Neurosurgical focus CLINICAL NEUROLOGY-SURGERY
CiteScore
6.30
自引率
0.00%
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261
审稿时长
3 months
期刊介绍: Information not localized
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