全自動乳房超音波之腫瘤偵測

Tien-Chin Li; 李天琴

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/45950

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	張瑞峰(Ruey-Feng Chang)
dc.contributor.author	Tien-Chin Li	en
dc.contributor.author	李天琴	zh_TW
dc.date.accessioned	2021-06-15T04:49:38Z	-
dc.date.available	2013-08-10
dc.date.copyright	2010-08-10
dc.date.issued	2010
dc.date.submitted	2010-08-02
dc.identifier.citation	[1] L. L. Humphrey, et al., 'Breast cancer screening: A summary of the evidence for the u.S. Preventive services task force,' Ann Intern Med, vol. 137, pp. 347-60, Sep 3 2002. [2] P. B. Gordon and S. L. Goldenberg, 'Malignant breast masses detected only by ultrasound. A retrospective review,' Cancer, vol. 76, pp. 626-30, Aug 15 1995. [3] T. M. Kolb, et al., 'Occult cancer in women with dense breasts: Detection with screening us--diagnostic yield and tumor characteristics,' Radiology, vol. 207, pp. 191-9, Apr 1998. [4] W. A. Berg, et al., 'Combined screening with ultrasound and mammography vs mammography alone in women at elevated risk of breast cancer,' JAMA, vol. 299, pp. 2151-63, May 14 2008. [5] M. Nothacker, et al., 'Early detection of breast cancer: Benefits and risks of supplemental breast ultrasound in asymptomatic women with mammographically dense breast tissue. A systematic review,' BMC Cancer, vol. 9, p. 335, 2009. [6] A. Izumori, et al., 'Ultrasound findings and histological features of ductal carcinoma in situ detected by ultrasound examination alone,' Breast Cancer, vol. 17, pp. 136-41, Apr 2010. [7] M. T. Mandelson, et al., 'Breast density as a predictor of mammographic detection: Comparison of interval- and screen-detected cancers,' J Natl Cancer Inst, vol. 92, pp. 1081-7, Jul 5 2000. [8] T. M. Kolb, et al., 'Comparison of the performance of screening mammography, physical examination, and breast us and evaluation of factors that influence them: An analysis of 27,825 patient evaluations,' Radiology, vol. 225, pp. 165-75, Oct 2002. [9] J. A. Harvey and V. E. Bovbjerg, 'Quantitative assessment of mammographic breast density: Relationship with breast cancer risk,' Radiology, vol. 230, pp. 29-41, Jan 2004. [10] Y. Kotsuma, et al., 'Quantitative assessment of mammographic density and breast cancer risk for japanese women,' Breast, vol. 17, pp. 27-35, Feb 2008. [11] D. S. Buist, et al., 'Factors contributing to mammography failure in women aged 40-49 years,' J Natl Cancer Inst, vol. 96, pp. 1432-40, Oct 6 2004. [12] P. Crystal, et al., 'Using sonography to screen women with mammographically dense breasts,' AJR Am J Roentgenol, vol. 181, pp. 177-82, Jul 2003. [13] I. Leconte, et al., 'Mammography and subsequent whole-breast sonography of nonpalpable breast cancers: The importance of radiologic breast density,' AJR Am J Roentgenol, vol. 180, pp. 1675-9, Jun 2003. [14] D. Kotsianos-Hermle, et al., 'Analysis of 107 breast lesions with automated 3d ultrasound and comparison with mammography and manual ultrasound,' European Journal of Radiology, vol. 71, pp. 109-115, Jul 2009. [15] K. M. Kelly, et al., 'Breast cancer detection using automated whole breast ultrasound and mammography in radiographically dense breasts,' European Radiology, vol. 20, pp. 734-742, 2010. [16] S. P. Sinha, et al., 'Automated ultrasound scanning on a dual-modality breast imaging system - coverage and motion issues and solutions,' Journal of Ultrasound in Medicine, vol. 26, pp. 645-655, May 2007. [17] G. Narayanasamy, et al., 'Spatial registration of temporally separated whole breast 3d ultrasound images,' Medical Physics, vol. 36, pp. 4288-4300, Sep 2009. [18] Y. Ikedo, et al., 'Development of a fully automatic scheme for detection of masses in whole breast ultrasound images,' Medical Physics, vol. 34, pp. 4378-88, Nov 2007. [19] R. F. Chang, et al., 'Rapid image stitching and computer-aided detection for multipass automated breast ultrasound,' Medical Physics, vol. 37, pp. 2063-2073, 2010. [20] K. A. Henry and C. I. Cohen, 'The role of labeling processes in diagnosing borderline personality disorder,' Am J Psychiatry, vol. 140, pp. 1527-9, Nov 1983. [21] J. C. Bezdek, et al., Fuzzy models for pattern recognition : Methods that search for structures in data. New York: Institute of Electrical and Electronics Engineers, 1992. [22] R. C. Gonzalez, Digital image processing, 3rd ed. ed. Upper Saddle River, NJ :: Pearson/Prentice Hall, 2008. [23] P. Perona and J. Malik, 'Scale-space and edge-detection using anisotropic diffusion,' IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 12, pp. 629-639, Jul 1990. [24] K. Z. Abd-Elmoniem, et al., 'Real-time speckle reduction and coherence enhancement in ultrasound imaging via nonlinear anisotropic diffusion,' Ieee Transactions on Biomedical Engineering, vol. 49, pp. 997-1014, Sep 2002. [25] Q. L. Sun, et al., 'Speckle reducing anisotropic diffusion for 3d ultrasound images,' Computerized Medical Imaging and Graphics, vol. 28, pp. 461-470, Dec 2004. [26] Y. Yu and J. Molloy, 'Freehand scan ultrasound reconstruction based on optimal 3d grid selection and anisotropic diffusion interpolation,' Medical Physics, vol. 32, pp. 2155-2155, Jun 2005. [27] J. S. Suri, et al., Recent advances in breast imaging, mammography, and computer-aided diagnosis of breast cancer. Bellingham, Wash.: SPIE Press, 2006. [28] J. S. Suri, Advances in diagnostic and therapeutic ultrasound imaging. Boston ; London: Artech House, 2008. [29] M. Nixon and A. S. Aguado, Feature extraction & image processing, second edition: Academic Press, 2008. [30] J. A. Hartigan, Clustering algorithms: John Wiley; Sons, Inc., 1975. [31] K. Cios, et al., Data mining methods for knowledge discovery: Kluwer Academic Publishers, 1998. [32] Rosenfel.A and J. L. Pfaltz, 'Sequential operations in digital picture processing,' Journal of the ACM, vol. 13, pp. 471-&, 1966. [33] K. F. Mulchrone and K. R. Choudhury, 'Fitting an ellipse to an arbitrary shape: Implications for strain analysis,' Journal of Structural Geology, vol. 26, pp. 143-153, 2004. [34] A. Field, Discovering statistics using spss, 2nd ed. ed. London: SAGE Publications, 2005.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/45950	-
dc.description.abstract	乳癌是目前女性最常發生的癌症之一，在全世界乳癌是女性十大致死率排名第一位。藉由檢測及提早治療方式能有效地減少乳癌造成的死亡。在許多乳房檢測儀器中，全乳房超音波是一個相當重要的影像檢查方法，與乳房X光攝影互補，藉由這兩種方式檢查乳癌是否已發生。然而，手動的超音波對於許多醫生來說是很費時費力的。因此近幾年來，自動的全乳房超音波已經有不少論文研究，希望藉由全自動方式來節省醫師的時間。因為一個病例可掃出數百張影像，醫師必須逐張檢查會花許多時間來診斷。因此，此論文提出一個電腦輔助的乳房腫瘤偵測系統來檢測是否存在可疑區域，以節省醫生診斷的時間。而在此系統中，首先必須作影像前處理: 移除左右兩側黑邊及降低解析度可以減少偵測時間; S 型濾波器可以強化影像對比值; Anisotropic可以降低影像雜訊。再來是腫瘤偵測部份，三維模糊C群平均值法會將影像的灰階值來做分群，疑似腫瘤的部份會被歸類為同一群;再來用連通單元標示演算法將每一個腫瘤裡的像素各別地群聚成連通單元。最後是腫瘤評判標準，根據這些連通單元的特性，去計算每個連通單元中的特徵值再依據評判標準決定是否為可疑腫瘤。在這個實驗中，總共有130個病歷將其分為兩群，將55個病歷為一群當做訓練樣本而其餘75個病歷為另一群做為測試樣本，目前腫瘤偵測準確率約有八成四一，希望在未來是個對醫師診斷有所幫助的輔助工具。	zh_TW
dc.description.abstract	Breast cancer has topped the first spot of women’s cancer occurrence in recent years. The early detection and improved treatment are significant to reduce death of breast cancer. Breast ultrasound is a very important complementary imaging modality with mammography to detect breast cancer. However, the physician needs a lot of time to screen a patient by the manual ultrasound. Recently, the automatic whole breast ultrasound system has been developed to reduce the physician’s time for screening the breast. Because a large number of images are obtained for a case, the physician will still take a lot of time to diagnosis. Therefore, a computer-aided tumor detection system is proposed to find suspicious regions of tumors for reducing the diagnosis time. In the tumor detection system, the images are firstly pre-processed by removing black regions and sub-sampling to reduce the detecting time, then the anisotropic diffusion is applied to smooth the images, and the sigmoid filter is applied to enhance the contrast between tumor and normal tissue. In the detection stage, the fuzzy c-means clustering classifies all the pixels into several groups with similar grey intensities. The connected components labeling is used to find all the connected areas in the 3D ABUS image based on the results of the fuzzy c-means clustering. The tumor criteria are proposed to reduce the number of suspicious regions and only the high potential tumor regions could be remained after applying the criteria. In this experiment, there are 130 cases and they were separated into two groups, the 55 cases are used as the training cases and the remaining 75 cases are used as for testing. By experimental results, almost all tumors can be found by this system and the sensitivity is up to 84.1% (79/94) with 2.37 FP rate per case. The proposed tumor detection system is a good tool to help the diagnosis of doctors.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T04:49:38Z (GMT). No. of bitstreams: 1 ntu-99-R97922076-1.pdf: 1199772 bytes, checksum: 375bb2100c928e70836b0584460613d3 (MD5) Previous issue date: 2010	en
dc.description.tableofcontents	ACKNOWLEDGEMENTS ii 論文摘要 iii ABSTRACT iv Table of Contents v List of Figures vii List of tables x Chapter 1 Introduction 1 Chapter 2 Background 5 Chapter 3 Fuzzy C-means Tumor Detection 7 3.1 Pre-processing technique 8 3.1.1 Sub-sampling 8 3.1.2 Black region removing 9 3.1.3 Anisotropic diffusion 11 3.1.4 Sigmoid filter 12 3.2 FCM Tumor Detection 14 3.2.1 Fuzzy c-means 14 3.2.2 Connected component labeling 16 3.3 Tumor Criteria 17 3.3.1 Tumor volume 17 3.3.2 Tumor mean 18 3.3.3 Volume ratio 19 3.3.4 Fitting ellipsoid ratio 21 3.3.5 Long-short axis ratio 22 3.3.6 Neighborhood mean difference 24 3.3.7 Standard deviation 25 Chapter 4 Experiments and Results 27 4.1 Experimental results 27 4.2 Discussion 44 Chapter 5 Conclusion and Future Works 46 References 47
dc.language.iso	en
dc.subject	乳房超音波	zh_TW
dc.subject	Breast Ultrasound Image	en
dc.title	全自動乳房超音波之腫瘤偵測	zh_TW
dc.title	Fuzzy C-means Tumor Detection for Automated Whole Breast Ultrasound Image	en
dc.type	Thesis
dc.date.schoolyear	98-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	黃俊升,張允中
dc.subject.keyword	乳房超音波,	zh_TW
dc.subject.keyword	Breast Ultrasound Image,	en
dc.relation.page	49
dc.rights.note	有償授權
dc.date.accepted	2010-08-03
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	資訊工程學研究所	zh_TW
顯示於系所單位：	資訊工程學系

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