论文信息 - Multi-mode Narrow-band Thresholding with Application in Liver Segmentation from Low-contrast CT Images

Multi-mode Narrow-band Thresholding with Application in Liver Segmentation from Low-contrast CT Images

Segmentation of liver in CT images is regarded as a challenge in image processing due to low-contrast of datasets, variety of liver shape, and its non-uniform texture; especially for abnormal cases. In this paper, we deal with normal and abnormal datasets as images containing two or more Gaussian components. We threshold a slice in a narrow band of each mode, find liver pixels based on a priori knowledge, prepare a probability map, and threshold the map to find initial liver border. Final boundary of liver is obtained through a few iterations of ‘Geodesic Active Contour’. The proposed method was tested on 30 normal and 17 abnormal datasets each containing 159-263 slices; acquired from different CT machines. The results for normal and abnormal datasets are completely acceptable, according to the evaluation done by a specialist. However, for severely abnormal datasets, the proposed method is regarded as a promising algorithm for liver segmentation.

[1] Cüneyt Güzelis,et al. Patient oriented and robust automatic liver segmentation for pre-evaluation of liver transplantation , 2008, Comput. Biol. Medicine.

[2] Hyunjin Park,et al. Construction of an abdominal probabilistic atlas and its application in segmentation , 2003, IEEE Transactions on Medical Imaging.

[3] Marco Nolden,et al. COMPUTER-BASED SURGERY PLANNING FOR LIVING LIVER DONATION , 2004 .

[4] Johan Montagnat,et al. Fully Automatic Anatomical, Pathological, and Functional Segmentation from CT Scans for Hepatic Surgery , 2000, Medical Imaging: Image Processing.

[5] Vipin Chaudhary,et al. Segmentation of the Liver from Abdominal CT Using Markov Random Field Model and GVF Snakes , 2008, 2008 International Conference on Complex, Intelligent and Software Intensive Systems.

[6] N. Ayache,et al. Fully automatic anatomical, pathological, and functional segmentation from CT scans for hepatic surgery , 2001 .

[7] Joachim Höhle,et al. International Archives of Photogrammetry and Remote Sensing : XVIII ISPRS Congress, Wien, 1996 , 1996 .

[8] Guillermo Sapiro,et al. Geodesic Active Contours , 1995, International Journal of Computer Vision.

[9] J. Furst,et al. A Hybrid Approach for Liver Segmentation , 2007 .

[10] B. Ginneken,et al. 3D Segmentation in the Clinic: A Grand Challenge , 2007 .