A Novel and Cost-Effective Technique for Quantitative Measurement of Endoscopic Photogrammetric Model.

Operative neurosurgery (Hagerstown, Md.) Pub Date : 2025-07-16 DOI:10.1227/ons.0000000000001678

Amedeo Piazza, Megan M J Bauman, Jacopo Bellomo, Fabio Torregrossa, Luciano C P C Leonel, Yuki Shinya, Stephen Graepel, Matteo De Notaris, Alessandro Frati, Michael J Link, Maria Peris-Celda

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Abstract

Background and objective: In skull base surgery, endoscopic endonasal approaches require precise evaluation of the area of exposure and the maneuverability provided by each approach. Current neuroanatomical methodologies for quantifying these parameters primarily rely on computed tomography (CT) scans and neuronavigation systems, which entail significant financial investment. The aim of this study was to develop and validate an innovative, cost-effective methodology using an endoscopic photogrammetric model to measure the exposure area and maneuverability in endoscopic endonasal approaches, offering an accessible alternative to existing techniques.

Methods: Six cadaveric specimens were used to validate the accuracy of endoscopic photogrammetric measurements by comparing them with direct measurements. Subsequently, the exposure area, angle of attack, and surgical freedom were analyzed for 3 endoscopic approaches to the parasellar region: contralateral transmaxillary, single-nostril, and double-nostril approaches.

Results: Photogrammetric measurements demonstrated a high level of concordance with direct cadaveric measurements, with a mean difference of 0.02 mm as shown in the Bland-Altman plot.In addition, measurements obtained in comparative analysis describing the exposure area and maneuverability of 3 endoscopic approaches were congruent with those reported in existing literature derived using CT scans and neuronavigation systems.

Conclusion: To our knowledge, this study is the first to validate endoscopic photogrammetric models as a measurement tool in neuroanatomy. Performing direct measurements on 3D models might eliminate the necessity of expensive CT and neuronavigation systems for volumetric quantification. Our cost-effective methodology allows for the widespread democratization of anatomical quantification within skull base neuroanatomy.

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一种新型且经济高效的内窥镜摄影测量模型定量测量技术。

背景和目的：在颅底手术中，内镜鼻内入路需要精确评估暴露区域和每个入路提供的可操作性。目前用于量化这些参数的神经解剖学方法主要依赖于计算机断层扫描（CT）和神经导航系统，这需要大量的财政投资。本研究的目的是开发和验证一种创新的、具有成本效益的方法，使用内窥镜摄影测量模型来测量内窥镜鼻内入路的暴露面积和可操作性，为现有技术提供一种可访问的替代方案。方法：采用6具尸体标本，通过与直接测量相比较，验证内窥镜摄影测量的准确性。随后，对经对侧上颌、单鼻孔和双鼻孔三种经鼻内镜入路鞍旁区的暴露面积、攻角和手术自由度进行分析。结果：摄影测量结果显示与直接尸体测量结果高度一致，如Bland-Altman图所示，平均差异为0.02 mm。此外，在比较分析中获得的测量结果描述了3种内镜入路的暴露面积和可操作性，与现有文献中使用CT扫描和神经导航系统得出的结果一致。结论：据我们所知，这项研究首次验证了内窥镜摄影测量模型作为神经解剖学测量工具。对3D模型进行直接测量可能会消除昂贵的CT和神经导航系统对体积量化的必要性。我们具有成本效益的方法允许在颅底神经解剖学解剖量化的广泛民主化。

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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Operative neurosurgery (Hagerstown, Md.)

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