一种利用锥形束CT融合对人工耳蜗植入物迁移进行精确三维分析的建议方法。
A Proposed Method for Accurate 3D Analysis of Cochlear Implant Migration Using Fusion of Cone Beam CT.
作者信息
Dees Guido, van Hoof Marc, Stokroos Robert
机构信息
Department of Otorhinolaryngology and Head and Neck Surgery, Maastricht University Medical Center , Maastricht , Netherlands.
出版信息
Front Surg. 2016 Jan 25;3:2. doi: 10.3389/fsurg.2016.00002. eCollection 2016.
INTRODUCTION
The goal of this investigation was to compare fusion of sequential cone beam computerized tomography (CT) volumes to the gold standard (fiducial registration) in order to be able to analyze clinical cochlear implant (CI) migration with high accuracy in three dimensions.
MATERIALS AND METHODS
Paired cone beam CT volumes were performed on five human cadaver temporal bones and one human subject. These volumes were fused using 3D Slicer 4 and BRAINSFit software. Using a gold standard fiducial technique, the accuracy, robustness, and performance time of the fusion process were assessed.
RESULTS
This proposed fusion protocol achieves a subvoxel median Euclidean distance of 0.05 mm in human cadaver temporal bones and 0.16 mm (mean) when applied to the described in vivo human synthetic data set in over 95% of all fusions. Performance times are <2 min.
CONCLUSION
Here, a new and validated method based on existing techniques is described, which could be used to accurately quantify migration of CI electrodes.
引言
本研究的目的是将连续的锥形束计算机断层扫描(CT)容积融合与金标准(基准配准)进行比较,以便能够在三维空间中高精度地分析临床人工耳蜗(CI)的迁移情况。
材料与方法
对五具人类尸体颞骨和一名人类受试者进行了成对的锥形束CT容积扫描。使用3D Slicer 4和BRAINSFit软件对这些容积进行融合。采用金标准基准技术,评估融合过程的准确性、稳健性和执行时间。
结果
该提议的融合方案在人类尸体颞骨中实现了亚体素中位数欧几里得距离为0.05毫米,应用于所述体内人类合成数据集时,在超过95%的融合中平均距离为0.16毫米。执行时间<2分钟。
结论
本文描述了一种基于现有技术的经过验证的新方法,可用于准确量化CI电极的迁移。
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