Electrical and Electronics Engineering, Istanbul Yeni Yuzyil University Istanbul, Istanbul, Turkey.
Electronics and Communication Engineering, Yildiz Technical University Istanbul, Istanbul, Turkey.
Int J Comput Assist Radiol Surg. 2017 Apr;12(4):627-644. doi: 10.1007/s11548-017-1521-9. Epub 2017 Jan 18.
Computer-aided detection (CAD) systems are developed to help radiologists detect colonic polyps over CT scans. It is possible to reduce the detection time and increase the detection accuracy rates by using CAD systems. In this paper, we aimed to develop a fully integrated CAD system for automated detection of polyps that yields a high polyp detection rate with a reasonable number of false positives.
The proposed CAD system is a multistage implementation whose main components are: automatic colon segmentation, candidate detection, feature extraction and classification. The first element of the algorithm includes a discrete segmentation for both air and fluid regions. Colon-air regions were determined based on adaptive thresholding, and the volume/length measure was used to detect air regions. To extract the colon-fluid regions, a rule-based connectivity test was used to detect the regions belong to the colon. Potential polyp candidates were detected based on the 3D Laplacian of Gaussian filter. The geometrical features were used to reduce false-positive detections. A 2D projection image was generated to extract discriminative features as the inputs of an artificial neural network classifier.
Our CAD system performs at 100% sensitivity for polyps larger than 9 mm, 95.83% sensitivity for polyps 6-10 mm and 85.71% sensitivity for polyps smaller than 6 mm with 5.3 false positives per dataset. Also, clinically relevant polyps ([Formula: see text]6 mm) were identified with 96.67% sensitivity at 1.12 FP/dataset.
To the best of our knowledge, the novel polyp candidate detection system which determines polyp candidates with LoG filters is one of the main contributions. We also propose a new 2D projection image calculation scheme to determine the distinctive features. We believe that our CAD system is highly effective for assisting radiologist interpreting CT.
计算机辅助检测(CAD)系统旨在帮助放射科医生在 CT 扫描中检测结肠息肉。使用 CAD 系统可以减少检测时间并提高检测准确率。在本文中,我们旨在开发一种完全集成的 CAD 系统,用于自动检测息肉,以合理数量的假阳性获得高的息肉检测率。
所提出的 CAD 系统是一个多阶段的实现,其主要组件包括:自动结肠分割、候选检测、特征提取和分类。算法的第一个元素包括对空气和液体区域的离散分割。基于自适应阈值确定结肠-空气区域,使用体积/长度度量来检测空气区域。为了提取结肠-液体区域,使用基于规则的连通性测试来检测属于结肠的区域。基于 3D 拉普拉斯高斯滤波器检测潜在的息肉候选物。使用几何特征减少假阳性检测。生成二维投影图像以提取有区别的特征作为人工神经网络分类器的输入。
我们的 CAD 系统对于大于 9mm 的息肉的检测率为 100%,对于 6-10mm 的息肉的检测率为 95.83%,对于小于 6mm 的息肉的检测率为 85.71%,每个数据集的假阳性率为 5.3。此外,对于临床相关的息肉([公式:见文本]6mm),在 1.12FP/dataset 时具有 96.67%的灵敏度。
据我们所知,使用 LoG 滤波器确定息肉候选物的新型息肉候选检测系统是主要贡献之一。我们还提出了一种新的二维投影图像计算方案来确定有区别的特征。我们相信我们的 CAD 系统对于协助放射科医生解读 CT 非常有效。
