Visualization of the infratemporal fossa: enhancing anatomical learning through three-dimensional modeling.

IF 1.4 Q3 ANATOMY & MORPHOLOGY Anatomy & Cell Biology Pub Date : 2024-08-19 DOI:10.5115/acb.24.127
Woohyun Cho, Hye Jin Kim, Mi-Sun Hur, Han-Soo Lee, Kwan Hyun Youn
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Abstract

The infratemporal fossa and pterygopalatine fossa are critical pathways for blood vessels and nerves leading to the orbit, nasal cavity, and oral cavity. Anatomical observation of these areas is challenging for learners due to their complex connections with surrounding structures and their deep location within the body. Since it is not easy to understand this area in three dimensions with only textbook images, there is a need to produce three-dimensional (3D) content. Most existing 3D data have reconstructed the digital imaging and communication in medicine files from computed tomography images with high accuracy; however, the surrounding structures often obstruct the view. For this reason, this project utilized Cinema4D (R18; Maxon) software to refine the modeled bones and to create 3D models of muscles, blood vessels, and nerves that accurately represent their anatomical shapes and pathways. To facilitate easier access for learners via PC, the content was converted into PDF format. This enables the educational materials to be more easily viewed and the main structures more clearly observed using a computer-based viewer.

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颞下窝的可视化:通过三维建模加强解剖学学习。
颞下窝和翼腭窝是血管和神经通往眼眶、鼻腔和口腔的重要通道。由于这些区域与周围结构的联系复杂,且位于人体深部,因此对学习者进行解剖观察具有挑战性。由于仅凭教科书上的图像很难从三维角度了解这些区域,因此有必要制作三维(3D)内容。现有的大多数三维数据都能从计算机断层扫描图像中高精度地重建数字成像和医学通信文件;但是,周围的结构往往会遮挡视线。因此,本项目利用 Cinema4D (R18; Maxon) 软件来完善骨骼模型,并创建肌肉、血管和神经的三维模型,以准确呈现其解剖形状和路径。为了方便学习者通过个人电脑查阅,教材内容被转换成了 PDF 格式。这样,使用电脑浏览器就能更方便地查看教学材料,更清晰地观察主要结构。
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来源期刊
Anatomy & Cell Biology
Anatomy & Cell Biology ANATOMY & MORPHOLOGY-
CiteScore
1.80
自引率
9.10%
发文量
75
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