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使用基于决策树的集成分类法描绘儿科视网膜图像中的血管

Delineation of blood vessels in pediatric retinal images using decision trees-based ensemble classification.

作者信息

Fraz Muhammad Moazam, Rudnicka Alicja R, Owen Christopher G, Barman Sarah A

机构信息

School of Computing and Information Systems, Faculty of Science Engineering and Computing, Kingston University London, London, UK,

出版信息

Int J Comput Assist Radiol Surg. 2014 Sep;9(5):795-811. doi: 10.1007/s11548-013-0965-9. Epub 2013 Dec 24.

DOI:10.1007/s11548-013-0965-9
PMID:24366332
Abstract

PURPOSE

Automatic segmentation of the retinal vasculature is a first step in computer-assisted diagnosis and treatment planning. The extraction of retinal vessels in pediatric retinal images is challenging because of comparatively wide arterioles with a light streak running longitudinally along the vessel's center, the central vessel reflex. A new method for automatic segmentation was developed and tested.

METHOD

A supervised method for retinal vessel segmentation in the images of multi-ethnic school children was developed based on ensemble classifier of bootstrapped decision trees. A collection of dual Gaussian, second derivative of Gaussian and Gabor filters, along with the generalized multiscale line strength measure and morphological transformation is used to generate the feature vector. The feature vector encodes information to handle the normal vessels as well as the vessels with the central reflex. The methodology is evaluated on CHASE_DB1, a relatively new public retinal image database of multi-ethnic school children, which is a subset of retinal images from the Child Heart and Health Study in England (CHASE) dataset.

RESULTS

The segmented retinal images from the CHASE_DB1 database produced best case accuracy, sensitivity and specificity of 0.96, 0.74 and 0.98, respectively, and worst case measures of 0.94, 0.67 and 0.98, respectively.

CONCLUSION

A new retinal blood vessel segmentation algorithm was developed and tested with a shared database. The observed accuracy, speed, robustness and simplicity suggest that the algorithm may be a suitable tool for automated retinal image analysis in large population-based studies.

摘要

目的

视网膜血管的自动分割是计算机辅助诊断和治疗规划的第一步。由于小儿视网膜图像中的小动脉相对较宽,且有一条沿血管中心纵向延伸的亮条纹(即中央血管反射),因此在小儿视网膜图像中提取视网膜血管具有挑战性。开发并测试了一种新的自动分割方法。

方法

基于自训练决策树的集成分类器,开发了一种用于多民族学龄儿童图像中视网膜血管分割的监督方法。使用双高斯、高斯二阶导数和伽柏滤波器的集合,以及广义多尺度线强度测量和形态变换来生成特征向量。该特征向量对处理正常血管以及具有中央反射的血管的信息进行编码。该方法在CHASE_DB1上进行评估,CHASE_DB1是一个相对较新的多民族学龄儿童公共视网膜图像数据库,它是英国儿童心脏与健康研究(CHASE)数据集中视网膜图像的一个子集。

结果

来自CHASE_DB1数据库的分割视网膜图像的最佳情况准确率、灵敏度和特异性分别为0.96、0.74和0.98,最差情况指标分别为0.94、0.67和0.98。

结论

开发并使用一个共享数据库测试了一种新的视网膜血管分割算法。观察到的准确性、速度、稳健性和简单性表明,该算法可能是基于大人群研究的自动化视网膜图像分析的合适工具。

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