Achenbach Tobias, Weinheimer Oliver, Dueber Christoph, Heussel Claus Peter
Department of Diagnostic and Interventional Radiology, Johannes Gutenberg University, Langenbeckstrasse 1, 55101 Mainz, Germany.
J Comput Assist Tomogr. 2009 Sep-Oct;33(5):725-30. doi: 10.1097/RCT.0b013e318190699a.
The purpose of this study was to determine the point where a further decrease in voxel size does not result in better automatic quantification of the bronchial wall thickness by using 2 different assessment techniques.
The results from the commonly used full-width-at-half-maximum (FWHM) principle and a new technique (integral-based method [IBM]) were compared for thin-section multidetector computed tomography (MDCT) data sets from an airway phantom containing 10 different tubular airway phantoms and in a human subsegmental bronchus in vivo. Correlation with the actual wall thickness and comparison of the wall thicknesses assessed for different voxel sizes were performed, and the image resolutions were also compared subjectively.
The relative error ranged from 0% (biggest phantom) to 330% (smallest phantom, biggest field of view, smaller matrix, and FWHM). Using IBM, the maximum relative error was 10% in the same setting. For FWHM, the improvement was marginal for most settings with a pixel spacing less than 0.195 x 0.195 x 0.8 mm; however, it still decreases the relative error from 290% to 273.6% for a wall thickness of 0.3 mm and a pixel spacing of 0.076 x 0.076 x 0.8 mm.
(1) Using a special technique such as IBM to account for computed tomography's blurring effect in assessing airway wall thickness had the greatest impact on correct quantification. (2) The visual impression and the automatic quantification using the FWHM technique improved marginally by decreasing the voxel size to less than 0.195 x 0.195 x 0.8 mm. (3) The FWHM technique as a model for visual quantification is not reliable for airway wall thicknesses less than 1.5 mm.
本研究旨在通过两种不同的评估技术确定体素大小进一步减小不会导致支气管壁厚度自动定量更好的点。
比较常用的半高全宽(FWHM)原理和一种新技术(基于积分的方法[IBM])对包含10个不同管状气道模型的气道模型的薄层多排螺旋计算机断层扫描(MDCT)数据集以及在人体亚段支气管内的体内数据。进行与实际壁厚度的相关性分析以及对不同体素大小评估的壁厚度进行比较,并主观比较图像分辨率。
相对误差范围为0%(最大模型)至330%(最小模型、最大视野、较小矩阵和FWHM)。在相同设置下,使用IBM时最大相对误差为10%。对于FWHM,在大多数像素间距小于0.195×0.195×0.8mm的设置中改善很小;然而,对于0.3mm的壁厚度和0.076×0.076×0.8mm的像素间距,它仍将相对误差从290%降低到273.6%。
(1)使用诸如IBM的特殊技术来考虑计算机断层扫描在评估气道壁厚度时的模糊效应,对正确定量有最大影响。(2)将体素大小减小到小于0.195×0.195×0.8mm时,使用FWHM技术的视觉印象和自动定量略有改善。(3)作为视觉定量模型的FWHM技术对于小于1.5mm的气道壁厚度不可靠。
