DocumentCode
899966
Title
Multifeature Prostate Cancer Diagnosis and Gleason Grading of Histological Images
Author
Tabesh, Ali ; Teverovskiy, Mikhail ; Pang, Ho-Yuen ; Kumar, Vinay P. ; Verbel, David ; Kotsianti, Angeliki ; Saidi, Olivier
Author_Institution
Aureon Lab., Inc., Yonkers
Volume
26
Issue
10
fYear
2007
Firstpage
1366
Lastpage
1378
Abstract
We present a study of image features for cancer diagnosis and Gleason grading of the histological images of prostate. In diagnosis, the tissue image is classified into the tumor and nontumor classes. In Gleason grading, which characterizes tumor aggressiveness, the image is classified as containing a low- or high-grade tumor. The image sets used in this paper consisted of 367 and 268 color images for the diagnosis and Gleason grading problems, respectively, and were captured from representative areas of hematoxylin and eosin-stained tissue retrieved from tissue microarray cores or whole sections. The primary contribution of this paper is to aggregate color, texture, and morphometric cues at the global and histological object levels for classification. Features representing different visual cues were combined in a supervised learning framework. We compared the performance of Gaussian, -nearest neighbor, and support vector machine classifiers together with the sequential forward feature selection algorithm. On diagnosis, using a five-fold cross-validation estimate, an accuracy of 96.7% was obtained. On Gleason grading, the achieved accuracy of classification into low- and high-grade classes was 81.0%.
Keywords
cancer; feature extraction; image classification; medical image processing; tumours; Gleason grading; eosin-stained tissue; hematoxylin; histological images; image classifiers; image features; multifeature prostate cancer diagnosis; nontumor class; sequential forward feature selection algorithm; tissue image; tumor aggressiveness; visual cues; Aggregates; Biological tissues; Color; Glands; Image retrieval; Laboratories; Neoplasms; Prostate cancer; Supervised learning; Support vector machines; Computer-aided diagnosis; Gleason grading; prostate cancer; statistical pattern recognition; Algorithms; Artificial Intelligence; Color; Colorimetry; Humans; Image Enhancement; Image Interpretation, Computer-Assisted; Male; Pattern Recognition, Automated; Prostatic Neoplasms; Reproducibility of Results; Sensitivity and Specificity;
fLanguage
English
Journal_Title
Medical Imaging, IEEE Transactions on
Publisher
ieee
ISSN
0278-0062
Type
jour
DOI
10.1109/TMI.2007.898536
Filename
4336180
Link To Document