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使用多个神经网络在高分辨率CT上自动检测和量化磨玻璃影:与密度掩膜的比较

Automatic detection and quantification of ground-glass opacities on high-resolution CT using multiple neural networks: comparison with a density mask.

作者信息

Kauczor H U, Heitmann K, Heussel C P, Marwede D, Uthmann T, Thelen M

机构信息

Department of Radiology, Johannes Gutenberg-University Mainz, Langenbeckstr. 1, 55131 Mainz, Germany.

出版信息

AJR Am J Roentgenol. 2000 Nov;175(5):1329-34. doi: 10.2214/ajr.175.5.1751329.

DOI:10.2214/ajr.175.5.1751329
PMID:11044035
Abstract

OBJECTIVE

We compared multiple neural networks with a density mask for the automatic detection and quantification of ground-glass opacities on high-resolution CT under clinical conditions.

SUBJECTS AND METHODS

Eighty-four patients (54 men and 30 women; age range, 18-82 years; mean age, 49 years) with a total of 99 consecutive high-resolution CT scans were enrolled in the study. The neural network was designed to detect ground-glass opacities with high sensitivity and to omit air-tissue interfaces to increase specificity. The results of the neural network were compared with those of a density mask (thresholds, -750/-300 H), with a radiologist serving as the gold standard.

RESULTS

The neural network classified 6% of the total lung area as ground-glass opacities. The density mask failed to detect 1.3%, and this percentage represented the increase in sensitivity that was achieved by the neural network. The density mask identified another 17.3% of the total lung area to be ground-glass opacities that were not detected by the neural network. This area represented the increase in specificity achieved by the neural network. Related to the extent of the ground-glass opacities as classified by the radiologist, the neural network (density mask) reached a sensitivity of 99% (89%), specificity of 83% (55%), positive predictive value of 78% (18%), negative predictive value of 99% (98%), and accuracy of 89% (58%).

CONCLUSION

Automatic segmentation and quantification of ground-glass opacities on high-resolution CT by a neural network are sufficiently accurate to be implemented for the preinterpretation of images in a clinical environment; it is superior to a double-threshold density mask.

摘要

目的

我们比较了多种神经网络与密度掩膜在临床条件下对高分辨率CT上磨玻璃影的自动检测和定量分析。

对象与方法

84例患者(54例男性,30例女性;年龄范围18 - 82岁;平均年龄49岁),共进行了99次连续的高分辨率CT扫描纳入本研究。神经网络旨在高灵敏度地检测磨玻璃影,并忽略气 - 组织界面以提高特异性。将神经网络的结果与密度掩膜(阈值为 - 750 / - 300 H)的结果进行比较,以放射科医生的判断作为金标准。

结果

神经网络将全肺面积的6%分类为磨玻璃影。密度掩膜未能检测到1.3%,该百分比代表了神经网络实现的灵敏度提高。密度掩膜识别出全肺面积中另外17.3%为神经网络未检测到的磨玻璃影。该区域代表了神经网络实现的特异性提高。与放射科医生分类的磨玻璃影范围相关,神经网络(密度掩膜)的灵敏度为99%(89%),特异性为83%(55%),阳性预测值为78%(18%),阴性预测值为99%(98%),准确率为89%(58%)。

结论

神经网络对高分辨率CT上磨玻璃影的自动分割和定量分析足够准确,可用于临床环境中图像的预解读;它优于双阈值密度掩膜。

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