Scoring Methods for Liver Tissue Fibrosis Based on Ultrasound Radio Frequency Time Series_Journal of Biomedical Engineering

Authors：

GAOYongzhen ¹ ,  LINChunyi ¹ , CHENQiubin ¹ , ZHOUJianhua ²

1. School of Electronic and Information Engineering, South China University of Technology, Guangzhou 510640, China;
2. Cancer Center, Sun Yat-sen University, Guangzhou 510080, China;

Corresponding author：

LINChunyi, Email: eechylin@scut.edu.cn

Keywords：

ultrasound radio frequency time series; relative deviation scoring method; Fisher scoring method; liver fibrosis

DOI：

10.7507/1001-5515.20150032

Video：

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Trying to provide ultrasonic image-aid measures for quantitative diagnosis and dynamic monitoring of liver fibrosis, we propose two scoring methods for liver fibrosis tissue in vivo, based on ultrasound radio frequency (RF) time series in this paper. Firstly, RF echo signals of human liver were recorded in this study. Then one of the recorded frame RF data was demodulated to be B model image. After that, a region of interest (ROI) in the B model image was selected. For each point in the ROI, its all frame data were acquired so that RF time series were formed. An SMR (size measure relationship) fractal dimension and six spectral features were extracted from RF time series in the ROI. With relative deviation and Fisher's discriminant ratio, seven features were weighted and summed so that the liver tissues' scores were obtained, Score-rd and Score-fisher, respectively. Area under ROC curve (AUC) and a support vector machine (SVM) were used to evaluate whether these scoring methods would be useful in distinguishing normal and cirrhosis tissues. Experimental results are shown as follows: Score-rd's AUC was 0.843, while Score-fisher was 0.816, SVM classification accuracies were both up to 87.5%. This proved that our proposed scoring methods were effective in distinguishing normal and cirrhosis tissues. Score-rd and Score-fisher have potential for clinical applications. They can also provide quantitative references for liver fibrosis diagnosis.

Citation： GAOYongzhen, LINChunyi, CHENQiubin, ZHOUJianhua. Scoring Methods for Liver Tissue Fibrosis Based on Ultrasound Radio Frequency Time Series. Journal of Biomedical Engineering, 2015, 32(1): 175-180. doi: 10.7507/1001-5515.20150032 Copy

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6.	CAO G T, SHI P F, HU B. Ultrasonic liver discrimination using 2-D phase congruency[J]. IEEE Trans Biomed Eng, 2006, 53(10): 2116-2119.
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9.	LIZZI F, FELEPPA E, JAREMKO N. Liver-tissue characterization by digital spectrum and cepstrum analysis[C]//1981 Ultrasonics Symposium. Chicago, IL, USA: 1981: 575-578.
10.	LIZZI F L, OSTROMOGILSKY M, FELEPPA E J, et al. Relationship of ultrasonic spectral parameters to features of tissue microstructure[J]. IEEE Trans Ultrason Ferroelectr Freq Control, 1987, 34(3): 319-329.
11.	LIZZI F L, FELEPPA E J, ASTOR M, et al. Statistics of ultrasonic spectral parameters for prostate and liver examinations[J]. IEEE Trans Ultrason Ferroelectr Freq Control, 1997, 44(4): 935-942.
12.	LIZZI F L, FELEPPA E J, KAISAR ALAM S, et al. Ultrasonic spectrum analysis for tissue evaluation[J]. Pattern Recognit Lett, 2003, 24(4/5): 637-658.
13.	MEZIRI M, PEREIRA W C, ABDELWAHAB A, et al. In vitro chronic hepatic disease characterization with a multiparametric ultrasonic approach[J]. Ultrasonics, 2005, 43(5): 305-313.
14.	MEZIRI M, BOUZITOUNE R, MACHADO C B, et al. Multiparametric study to identify the hepatic fibrosis stages[C]//2009 IEEE International Ultrasonics Symposium (IUS). Rome: 2009: 2236-2239.
15.	MORADI M, MOUSAVI P, SIEMENS D R, et al. Discrete Fourier analysis of ultrasound RF time series for detection of prostate cancer[C]//29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2007. Lyon: 2007: 1339-1342.
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18.	ANGELSEN B. Ultrasound imaging: waves, signals, and signal processing[M]. Norway: Emantec, 2000: 1.9, 8.6-8.19.
19.	PARAMANATHAN P, UTHAYAKUMAR R. Application of fractal theory in analysis of human electroencephalographic signals[J]. Comput Biol Med, 2008, 38(3): 372-378.

1. MANNING D S, AFDHAL N H. Diagnosis and quantitation of fibrosis[J]. Gastroenterology, 2008, 134(6): 1670-1681.
2. 于立友, 汪龙德.肝纤维化检测方法的临床研究进展[J].甘肃中医学院学报, 2013, 30(2): 80-83.
3. 杨娜, 冯蕾.肝纤维化早期诊断的研究进展[J].昆明医学院学报, 2012, (1B): 236-243.
4. 梁健, 唐艳芳, 邓鑫, 等.肝纤维化无创性诊断研究进展[J].实用中医药杂志, 2011, 27(11): 799-802.
5. ZHOU G H, WANG Y Y, WANG W Q. Diagnosis of hepatic fibrosis by ultrasonic image analysis[C]//2012 International Conference on Biomedical Engineering and Biotechnology (iCBEB). Macau: 2012: 775-776.
6. CAO G T, SHI P F, HU B. Ultrasonic liver discrimination using 2-D phase congruency[J]. IEEE Trans Biomed Eng, 2006, 53(10): 2116-2119.
7. BASSET O, DUBOEUF F, DELHAY S, et al. Texture analysis of ultrasound liver images with contrast agent to characterize the fibrosis stage[C]//IEEE Ultrasonics Symposium, 2008. Beijing: 2008: 24-27.
8. TOYODA H, KUMADA T, KAMIYAMA N, et al. B-mode ultrasound with algorithm based on statistical analysis of signals: evaluation of liver fibrosis in patients with chronic hepatitis C[J]. Am J Roentgenol, 2009, 193(4): 1037-1043.
9. LIZZI F, FELEPPA E, JAREMKO N. Liver-tissue characterization by digital spectrum and cepstrum analysis[C]//1981 Ultrasonics Symposium. Chicago, IL, USA: 1981: 575-578.
10. LIZZI F L, OSTROMOGILSKY M, FELEPPA E J, et al. Relationship of ultrasonic spectral parameters to features of tissue microstructure[J]. IEEE Trans Ultrason Ferroelectr Freq Control, 1987, 34(3): 319-329.
11. LIZZI F L, FELEPPA E J, ASTOR M, et al. Statistics of ultrasonic spectral parameters for prostate and liver examinations[J]. IEEE Trans Ultrason Ferroelectr Freq Control, 1997, 44(4): 935-942.
12. LIZZI F L, FELEPPA E J, KAISAR ALAM S, et al. Ultrasonic spectrum analysis for tissue evaluation[J]. Pattern Recognit Lett, 2003, 24(4/5): 637-658.
13. MEZIRI M, PEREIRA W C, ABDELWAHAB A, et al. In vitro chronic hepatic disease characterization with a multiparametric ultrasonic approach[J]. Ultrasonics, 2005, 43(5): 305-313.
14. MEZIRI M, BOUZITOUNE R, MACHADO C B, et al. Multiparametric study to identify the hepatic fibrosis stages[C]//2009 IEEE International Ultrasonics Symposium (IUS). Rome: 2009: 2236-2239.
15. MORADI M, MOUSAVI P, SIEMENS D R, et al. Discrete Fourier analysis of ultrasound RF time series for detection of prostate cancer[C]//29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2007. Lyon: 2007: 1339-1342.
16. MORADI M, MOUSAVI P, ABOLMAESUMI P. Tissue characterization using fractal dimension of high frequency ultrasound RF time series[M]//AYACHE N, OURSELIN S, MAEDER A. Medical image computing and computer-assisted intervention-MICCAI 2007. Berlin Heidelberg: Springer Berlin Heidelberg, 2007: 900-908.
17. MORADI M, ABOLMAESUMI P, MOUSAVI P. Tissue typing using ultrasound RF time series: experiments with animal tissue samples[J]. Med Phys, 2010, 37(8): 4401-4413.
18. ANGELSEN B. Ultrasound imaging: waves, signals, and signal processing[M]. Norway: Emantec, 2000: 1.9, 8.6-8.19.
19. PARAMANATHAN P, UTHAYAKUMAR R. Application of fractal theory in analysis of human electroencephalographic signals[J]. Comput Biol Med, 2008, 38(3): 372-378.

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