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Quantitative evaluation of diagnostic information around the contours in ultrasound images

  • ORIGINAL ARTICLE
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Abstract

Purpose

To develop a new contour extraction method for identifying abnormal tissue.

Methods

We combined two techniques: logarithmic K distribution of a scattering model (method 1) and regional discrimination using the characteristics of local ultrasound images (method 2) into an integrated method (method 3) that provides accurate contours, which are essential for quantitizing border information.

Results

The diagnostic tissue information around the border of an image can be characterized by its shape and texture statistics. The degrees of circularity and irregularity and the depth–width ratio were calculated for the extracted contours of breast tumors. In addition, gradients, separability, and variance between the two regions along the contour and the area and variance of the internal echoes, were calculated as indices of diagnostic criteria of breast tumors. The quantitized indices were able to discriminate among cysts, fibroadenomas, and cancer.

Conclusion

In many ultrasound images of breast tumors, the combined techniques, the variance ratio of the logarithmic K distribution to the logarithmic Rayleigh distribution and the multilevel technique with local image information can effectively extract abnormal tissue contours.

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References

  1. T Mochizuki M Ito (1992) ArticleTitleTissue extraction using the texture of three-dimensional ultrasonic echo data Trans IEE Japan 112-C 507–15

    Google Scholar 

  2. X-J Cheng A Ohya M Natori et al. (1994) ArticleTitleBoundary extraction method of ultrasonic echo images using fuzzy reasoning J Med Ultrasonics 21 263–71

    Google Scholar 

  3. T Mochizuki M Ito (1994) ArticleTitleThe classification of ultrasonic images using fuzzy reasoning and spatial smoothing effect of textural features IEICE Japan (A) J77-A 1315–26

    Google Scholar 

  4. G Ohashi A Ohya M Natori et al. (1992) ArticleTitleEdge extraction method using neural network for three dimensional display of ultrasonic echo image Trans IEICE Japan J76-D-II 368–73

    Google Scholar 

  5. D Fukuoka T Hara H Fujita et al. (1998) ArticleTitleDynamic region-contour extraction method with automated initial contour production and unification of contours Trans IEICE Japan J81-D-II 1448–51

    Google Scholar 

  6. T Chono M Ito (2003) ArticleTitleTissue and morphological characterizations of breast tumors in medical ultrasonic images Trans IEICE Japan J86-A 1108–15

    Google Scholar 

  7. M Kubota T Nagasawa Y Yamashita et al. (1990) ArticleTitleCharacterization of breast tumor morphology by ultrasonic image analysis J Med Ultrasonics 17 33–43

    Google Scholar 

  8. H Morikubo (1992) ArticleTitleQuantitative diagnosis in ultrasonic breast tumor using computer image analysis – differential diagnosis of breast cancer and fibroadenoma J Med Ultrasonics 19 35–47

    Google Scholar 

  9. K Omoto K Itoh X Chen et al. (1999) ArticleTitleStudy of the automated breast tumor extraction using 3D ultrasound imaging: the usefulness of depth–width ratio and surface–volume index J Med Ultrasonics 26 1197–204

    Google Scholar 

  10. Y Wang K Itoh N Taniguchi et al. (1997) ArticleTitleUltrasonic tissue characterization by texture analysis using normal and pathologic liners and a reference phantom, scanning relationship between depth range, scanning plane, probe frequency and magnification rate in the ultrasonic image J Med Ultrasonics 24 861–72

    Google Scholar 

  11. The Japan Society of Ultrasonics, in Midicine: Diagnostic criteria for breast lesions. J Med Ultrasonics 1989;16:107

    Google Scholar 

  12. PM Shankar JM Reid H Ortiga et al. (1995) ArticleTitleUse of non-Rayleigh statistics for the identification of tumors in ultrasonic B-scans of the breast IEEE Trans Med Imaging 12 687–92

    Google Scholar 

  13. JW Tsao T Itoh T Konishi (1989) ArticleTitleFormulation and statistical evaluation for parametric histogram variations in B-mode ultrasonography J Med Ultrasonics 16 1–12

    Google Scholar 

  14. VM Narayanan PM Shankar JM Reid (1994) ArticleTitleNon-Rayleigh statistics of ultrasonic backscattered signals IEEE Trans Ultrason Ferroelectr Freq Control 41 845–51 Occurrence Handle10.1109/58.330265

    Article  Google Scholar 

  15. L Weng JM Reid PM Shankar et al. (1991) ArticleTitleUltrasound speckle analysis based on the K distribution J Acoust Soc America 95 2992–5

    Google Scholar 

  16. E Jakeman PN Pusey (1978) ArticleTitleSignificance of distributions in scattering experiments Phys Rev Lett 40 546–50 Occurrence Handle10.1103/PhysRevLett.40.546

    Article  Google Scholar 

  17. E Jakeman (1980) ArticleTitleOn the statistics of K-distributed noise J Phys A: Math Gen 13 31–48

    Google Scholar 

  18. T Chonao M Ito (2001) ArticleTitleAutomatic segmentation of medical ultrasonic images using variable-shape-block method with morphological operations Trans IEICE Japan J84-A 1441–51

    Google Scholar 

  19. N Otsu (1980) ArticleTitleAn automatic threshold selection method based on discriminant and least squares criteria Trans IEICE Japan (D) J63-D 349–56

    Google Scholar 

  20. A Nomura T Fujita M Ito (1997) ArticleTitleRegional segmentation of an ultrasound image by morphology operations – application of locally variable structuring elements JSUM technical report on basic ultrasonics 96 1–8

    Google Scholar 

  21. Tsubai M, Takemura A, Ito M, et al. Edge enhancement by morphology operations using variable structuring elements. 72nd Proceedings of JSUM 1999;688

  22. M Ito M Tsubai A Nomura (2001) ArticleTitleMorphological operations by locally variable structuring elements and their applications to region extraction in ultrasound images Trans IEICE Japan J84-DII 1990–2000

    Google Scholar 

  23. RF Wagner SW Smith JM Sandrik et al. (1983) ArticleTitleStatistics of speckle in ultrasound B-scans IEEE Trans Son Ultrason 30 156–63

    Google Scholar 

  24. O Besset Z Sun JL Mestas et al. (1993) ArticleTitleTexture analysis of ultrasonic images of the prostate by means of co-occurrence matrices Ultrason Imaging 15 218–37

    Google Scholar 

  25. BJ Ostervel JM Thijissen WA Verhoef (1985) ArticleTitleTexture of B-mode echograph: 3-D simulations and experiments of the effects of diffraction and scatter density Ultrason Imaging 7 142–60

    Google Scholar 

  26. Yuta S, Suzuki K, Ito M, et al. Quantitative analysis of characteristics in ultrasonotomograms of tumors. 31st Proceedings of JSUM 1977:209–10.

  27. Takao S, Kono N, Furuya Y. Quantitative analysis of contour images in ultrasonic breast tumors. 51st Proceedings of JSUM;1987:103–4

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Authors and Affiliations

  1. Tokyo Denki University, Graduate School of Sciences and Engineering, Hatoyama-machi, Hiki, Saitama, 350-0394, Japan

    Masayasu Ito

  2. Tokyo University of Agriculture and Technology, Tokyo, Japan

    Masayasu Ito, Tomoaki Chono & Megumu Sekiguchi

  3. University of Tsukuba, Graduate School of Systems and Information Engineering, Tsukuba, Japan

    Tsuyoshi Shiina

  4. The Third Department of Internal Medicine, Kyorin University School of Medicine, Tokyo, Japan

    Hideaki Mori

  5. University of Tsukuba, Graduate School of Comprehensive Human Science, Tsukuba, Japan

    Eriko Tohno

Authors
  1. Masayasu Ito
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  2. Tomoaki Chono
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  3. Megumu Sekiguchi
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  4. Tsuyoshi Shiina
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  5. Hideaki Mori
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  6. Eriko Tohno
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Corresponding author

Correspondence to Masayasu Ito.

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Ito, M., Chono, T., Sekiguchi, M. et al. Quantitative evaluation of diagnostic information around the contours in ultrasound images. J Med Ultrasonics 32, 135–144 (2005). https://doi.org/10.1007/s10396-005-0050-2

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  • DOI: https://doi.org/10.1007/s10396-005-0050-2

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