3-D Reconstruction of the Ethmoidal Arteries of the Medial Orbital Wall Using Biodur® E12

Q4 Medicine

Journal of Plastination Pub Date : 2014-12-31 DOI:10.56507/elzv6849

P. Adds, Ahmad Al-Rekabi

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引用次数: 2

Abstract

Objectives The medial wall of the orbit is reported to contain anterior and posterior ethmoidal foramina, through which pass branches of the ophthalmic artery. These arteries are a potential source of bleeding during surgical procedures involving the medial orbital wall. However, recent research has revealed variable numbers of accessory ethmoidal foramina, which have also been shown to transmit vascular structures, making intraorbital surgery unpredictable and potentially hazardous. This study aims to elucidate the branching pattern of the arterial supply of the medial orbital wall, particularly in cases of multiple ethmoidal foramina. Materials and Methods Orbits were retrieved from cadavers donated for anatomical examination. Red silicone was injected into the ophthalmic artery via the internal carotid. The medial orbital wall was then dissected from contiguous craniofacial structures and embedded in Biodur® Epoxy E12 resin. Sections of 0.3 mm thickness were cut with a slow speed diamond saw, stained with Miller’s stain for elastin and then photographed with a digital camera. Three-dimensional reconstructions were carried out using WinSURF software. Results The optical qualities of the epoxy resin blocks were excellent, though this was not always the case with the individual sections. However, in the stained sections, the arteries were clearly visible. Using WinSURF, the outlines of the branches of the ethmoidal arteries and the bone lining the medial wall of the orbit were delineated. A three-dimensional model of the pattern of arterial branching was created. Conclusion Surgeons operating along the medial wall of the orbit need to be aware that multiple branches of the ethmoidal artery may be encountered. Three-dimensional reconstructions of the branching pattern give a clearer understanding of the blood supply to the medial wall. Work is on-going to map the variations in the branching of the ophthalmic artery.

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Biodur®E12在眶内壁筛动脉三维重建中的应用

目的眼眶内侧壁包含筛孔前后，眼动脉分支通过筛孔前后。在涉及眶内壁的手术过程中，这些动脉是出血的潜在来源。然而，最近的研究表明，副筛孔的数量变化，也显示了血管结构的传递，使得眶内手术不可预测和潜在的危险。本研究旨在阐明眶内壁动脉供应的分支模式，特别是在多发性筛孔的情况下。材料和方法从捐献的尸体上取眼眶进行解剖检查。红色硅胶经颈内动脉注入眼动脉。然后将眶内壁从相邻颅面结构上剥离，并用Biodur®环氧E12树脂包埋。用慢速金刚石锯切割0.3 mm厚度的切片，用米勒氏染色法染色弹性蛋白，然后用数码相机拍照。采用WinSURF软件进行三维重建。结果环氧树脂块的光学质量很好，但个别切片的光学质量并不总是如此。然而，在染色切片中，动脉清晰可见。利用WinSURF绘制眶内侧壁筛动脉分支及骨衬轮廓。建立了动脉分支模式的三维模型。结论沿眶内侧壁行眶内侧壁手术时应注意可能会遇到筛动脉的多个分支。分支模式的三维重建可以更清楚地了解内侧壁的血液供应。绘制眼动脉分支变化图的工作正在进行中。

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 Plastination Health Professions-Medical Laboratory Technology

CiteScore

0.40

自引率

0.00%

发文量