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BMC Surgery
Published in: BMC Surgery 1/2022

Open Access 01-12-2022 | Computed Tomography | Research

Three-dimensional imaging for the localization of related anatomical structures during surgery on the internal auditory canal

Authors: Ying Guo, Mengxing Li, Kailiang Cheng, Youqiong Li, Qingjie Ma

Published in: BMC Surgery | Issue 1/2022

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Abstract

Background

The Fisch infra-temporal fossa approach (Fisch’s method), first proposed in 1970, is commonly used during internal auditory canal (IAC) surgery with an approach that advances through the middle cranial fossa. This study was designed to address the technical difficulties encountered in recognizing and localizing the arcuate eminence with respect to the superior semicircular canal (SSC).

Methods

Forty men and 40 women (18–57 years of age) without space-occupying lesions in the petrous part of the temporal bone were selected for the study. In total, 160 samples were obtained from both sides of the temporal bone. The temporal bone in these 160 samples was scanned using computed tomography, and a three-dimensional coordinate system was established to measure the three-dimensional coordinate values of structures adjacent to the arcuate eminence, the SSC, and the IAC.

Results

The results showed that the shape of the arcuate eminence is highly variable. Approximately 23.12% of samples had no obvious arcuate eminence, which prevented the use of Fisch’s method to localize the SSC. The arcuate eminence was difficult to identify in 37 samples.

Conclusions

Analysis samples showed that the SSC was located in a fan ring centered at the midpoint of the upper edge of the petrous portion of the temporal bone. The arcuate eminence did not correspond directly with the SSC, as the former was located posterolateral to the latter in 85.83% of samples. The angle between the SSC and the IAC ranged from 0° to 60° degrees, as reported previously by Fisch. However, the angle typically ranged from 10–30° in our study.
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Metadata
Title
Three-dimensional imaging for the localization of related anatomical structures during surgery on the internal auditory canal
Authors
Ying Guo
Mengxing Li
Kailiang Cheng
Youqiong Li
Qingjie Ma
Publication date
01-12-2022
Publisher
BioMed Central
Published in
BMC Surgery / Issue 1/2022
Electronic ISSN: 1471-2482
DOI
https://doi.org/10.1186/s12893-022-01527-w

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