nach oben

Journal of Medical Systems

Erschienen in:

01.10.2011 | Original Paper

Highly Sensitive Computer Aided Diagnosis System for Breast Tumor Based on Color Doppler Flow Images

verfasst von: Xian-Fen Diao, Xin-Yu Zhang, Tian-Fu Wang, Si-Ping Chen, Ying Yang, Ling Zhong

Erschienen in: Journal of Medical Systems | Ausgabe 5/2011

Einloggen, um Zugang zu erhalten

Abstract

A computer-aided diagnosis (CAD) system for breast tumor based on color Doppler flow images is proposed. Our system consists of automatic segmentation, feature extraction, and classification of breast tumors. First, the B-mode grayscale image containing anatomical information was separated from a color Doppler flow image (CDFI). Second, the boundary of the breast tumor was automatically defined in the B-mode image and then morphologic and gray features were extracted. Third, an optimal feature vector was created using K-means cluster algorithm. Then a back-propagation (BP) artificial neural network (ANN) was used to classify breast tumors as benign, malignant or uncertain. Finally, the blood flow feature was extracted selectively from the CDFI, and was used to classify the uncertain tumor as benign or malignant. Experiments on 500 cases show that the proposed system yields an accuracy of 100% for the malignant and 80.8% for the benign classification. Comparing with other systems, the advantage of our system is that it has a much lower percentage of malignant tumor misdiagnosis.

Chen, D. R., Chang, R. F., and Huang, Y. L., Breast cancer diagnosis using self-organizing map for sonography. Ultrasound Med. Biol. 26(3):405–411, 2000.CrossRef

Wang, Y. Y., Shen, J. L., Guo, Y., et al, Computerized classification of breast tumors with morphologic and texture features of ultrasonic images. 21st IEEE International Symposium on CBMS 23–28, 2008.

Chen, D. R., Chang, R. F., and Huang, Y. L., Computer-aided diagnosis applied to US of solid breast nodules by using neural networks. Radiology 213:407–412, 1999.

Drukker, K., Gruszauskas, N. P., Sennett, C. A., and Giger, M. L., Breast US computer-aided diagnosis workstation:performance with a large clinical diagnostic population. Radiology 248(2):392–397, 2008.CrossRef

Chou, Y. H., Tiu, C. M., Hung, G. S., et al., Stepwise logistic regression analysis of tumor contour features for breast ultrasound diagnosis. Ultrasound Med. Biol. 27(11):1493–1498, 2001.CrossRef

Chen, D. R., Chang, R. F., Kuo, W. J., et al., Diagnosis of breast tumors with sonographic texture analysis using wavelet transform and neural networks. Ultrasound Med. Biol. 28(10):1301–1310, 2002.CrossRef

Chang, R. F., Wu, W. J., Woo, K. M., et al., Improvement in breast tumor discrimination by support vector machines and speckle-emphasis texture analysis. Ultrasound Med. Biol. 29(5):679–686, 2003.CrossRef

Zheng, Y., James, F. G., and John, J. G., Reduction of breast biopsies with a modified self-organizing map. Proc. SPIE 3033:384–391, 1997.CrossRef

McNicholas, M. M., Mercer, P. M., Miller, J. C., et al., Color Doppler sonography in the evaluation of palpable breast masses. Am J. Roentgenol. 161:765–771, 1993.

10.

Adler, D. D., Carson, P. L., Rubin, J. L., et al., Doppler ultrasound color flow imaging in the study of breast cancer: Preliminary findings. Ultrasound Med. Biol. 16(6):553–559, 1990.CrossRef

11.

Raza, S., and Baum, J. K., Solid breast lesions: evaluation with power Doppler US. Radiology 203(1):164–168, 1997.

12.

Zhao, S. K., Li, D. Y., Yin, L. X., et al., Ultrasound Doppler tissue image analysis based on neural network. Proc. SPIE 4555:87–92, 2001.CrossRef

13.

Huang, Y. L., Jiang, Y. R., Chen, D. R., et al., Level set contouring for breast tumor in sonography. J. Digit. Imaging 20(3):238–247, 2007.CrossRef

14.

Ladak, H. M., Mao, F., Wang, Y., et al., Prostate boundary segmentation from 2D ultrasound images. Med. Phys. 27(8):1777–1788, 2000.CrossRef

15.

Horsch, K., Giger, M. L., Venta, L. A., et al., Automatic segmentation of breast lesions on ultrasound. Med. Phys. 28(8):1652–1659, 2001.CrossRef

16.

Overhoff, H. M., Cornelius, T., Maas, S., et al., Visualization of anatomical structures of epigastric organs by use of automatically segmented 3-D ultrasound image volumes-first results. Biomed. Tech. 47(Suppl 1 Pt 2):633–635, 2002.CrossRef

17.

Chen, D. R., Chang, R. F., Wu, W. J., et al., 3-D breast ultrasound segmentation using active contour model. Ultrasound Med Biol 29(7):1017–1026, 2003.CrossRef

18.

Zhao, N., Chen, Y. Q., Yu, J. G., et al., Study on snake model in the ultrasound image processing. Shanghai Journal of Biomedical Engineering 25(4):3–9, 2004.

19.

Perona, P., and Malik, J., Scale-space and edge detection using anisotropic diffusion. IEEE Trans. Pattern Anal. Mach. Intell. 12(7):629–639, 1990.CrossRef

20.

Peng Yun. Segmentation of medical ultrasound image based on active contour model. Master’s thesis, Sichuan University, 2006.

21.

Zhang, J., Ultrasound diagnosis of the breast disease. Chinese Journal of Ultrasound Diagnosis 12(1):53–54, 2001.

22.

Zheng, R. Y., Lu, W. P., Yu, D. J., et al., Detecting false benign in breast cancer diagnosis. Proceedings of the IEEE-INNS-ENNS International Joint Conference on Neural Networks 3:655–658, 2000.

23.

Liu, X., Zhang, G. W., and Martin, D., Fractal description and classification of breast tumor. Annual International Conference of the IEEE Engineering in Medicine and Biology Society 13(1):112–113, 1991.

24.

Guita, R., Angela, C. S., Gail, C. H., et al., Benign versus malignant solid breast masses: US differentiation. Radiology 213(3):889–894, 1999.

25.

Stanislaw, O., and Nghia, D. D., Fourier and wavelet descriptors for shape recognition using neural networks: A comparative study. Pattern Recogn. 35(9):1949–1957, 2002.CrossRef

26.

Miguel, A. F., Patricia, A. F., Luis, A. L., et al, Computer-aided measurement of solid breast tumor features on ultrasound Images, CVAMIA04, 117(3):353–364, 2004.

27.

Lefebvre, F., Meunier, M., Thibault, F., et al., Computerized ultrasound B-scan characterization of breast nodules. Ultrasound Med. Biol. 26(9):1421–1428, 2000.CrossRef

Titel: Highly Sensitive Computer Aided Diagnosis System for Breast Tumor Based on Color Doppler Flow Images
verfasst von: Xian-Fen Diao
Xin-Yu Zhang
Tian-Fu Wang
Si-Ping Chen
Ying Yang
Ling Zhong
Publikationsdatum: 01.10.2011
Verlag: Springer US
Erschienen in: Journal of Medical Systems / Ausgabe 5/2011
Print ISSN: 0148-5598
Elektronische ISSN: 1573-689X
DOI: https://doi.org/10.1007/s10916-010-9461-8

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 5/2011

Extracting Insights from Electronic Health Records: Case Studies, a Visual Analytics Process Model, and Design Recommendations

Unbiased Group-Wise Image Registration: Applications in Brain Fiber Tract Atlas Construction and Functional Connectivity Analysis

Seamless Interworking Architecture for WBAN in Heterogeneous Wireless Networks with QoS Guarantees

Calcaneal Osteotomy Preoperative Planning System with 3D Full-Sized Computer-Assisted Technology

An Efficiency-Based Multicriteria Strategic Planning Model for Ambulatory Surgery Centers

Body Area Networks for Ubiquitous Healthcare Applications: Opportunities and Challenges