Authors: Lorena Urricelqui, Armando Malanda, Arantxa Villanueva

Abstract:

Purpose: To develop a method for automatic segmentation of adipose and muscular tissue in thighs from magnetic resonance images. Materials and methods: Thirty obese women were scanned on a Siemens Impact Expert 1T resonance machine. 1500 images were finally used in the tests. The developed segmentation method is a recursive and multilevel process that makes use of several concepts such as shaped histograms, adaptative thresholding and connectivity. The segmentation process was implemented in Matlab and operates without the need of any user interaction. The whole set of images were segmented with the developed method. An expert radiologist segmented the same set of images following a manual procedure with the aid of the SliceOmatic software (Tomovision). These constituted our 'goal standard'. Results: The number of coincidental pixels of the automatic and manual segmentation procedures was measured. The average results were above 90 % of success in most of the images. Conclusions: The proposed approach allows effective automatic segmentation of MRIs from thighs, comparable to expert manual performance.

Keywords: Segmentation, thigh, magnetic resonance image, fat, muscle.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1083647

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1861

References:

[1] Bonekamp, S., Gosh, P., Crawford, S., Solga, S.F., Horska, A., Brancati, F.L., Diehl, A.M., Smith, S., Clark, J.M. Quantitave comparison and evaluation of software packages for assessment of abdominal adipose tissue distribution by magnetic resonance imaging. International Journal of Obesity 32, 100-111 (2008).
[2] Goodpaster, B.H., Stenger, V.A., Boada, F., McKolanis, T., Davis, D., Ross, R., Kelley, D. E. Skeletal muscle lipid concentration quantified by magnetic resonance imaging. Am J Clin Nutr 79,748-54 (2004)
[3] Gronemeyer, S.A., Grant, R., Kauffman, W.M., Reddick, W.E, Glass, J.O. Fast adipose tissue (FAT) assessment by MRI. Magnetic Resonance Imaging 18,815-818 (2000) 4] Poll, L.W, Wittsack, H.J., Koch, J.A, Willers, R., Cohnen, M., Kapitza, C., Heinemann, L., Mödder, U. A rapid and reliable semiautomated method for measurement of total abdominal fat volumes using magnetic resonance imaging. Magnetic Resonance Imaging 21, 631-636 (2003)
[5] Barra, V., Boire, J.Y. Segmentation of fat and muscle from MR images of the thigh by a possibilistis clustering algorithm. Computer Methods and Programs in Biomedicine 68, 185- 193 (2002)
[6] Positano, V., Gastaldelli, A., Sironi, A.M., Santarelli, M.F., Lombardi, M., Landini, L. An accurate and robust method for unsupervised assessment of abdominal fat by MRI. Journal of MRI 20:684-689 (2004)
[7] Positano, V., Christiansen, T., Santarelli, M.F., Ringaard, S., Landini, L., Gastaldelli, A. Accurate segmentation of subcutaneous and intermuscular adipose tissue from MR images of the thigh. Journal of MRI 29, 677-684 (2009)
[8] Liou, T.H., Chan, W.P., Pan, L.C., Lin, P.W., Chou, P., Chen, C.H. Fully automated largescale assessment of visceral and subcutaneous abdominal adipose tissue by magnetic resonance imaging. International Journal of Obesity 30, 844-852 (2006).
[9] Gonzalez, R. C., Woods, R.E. Digital Signal Processing (2nd ed.). Prentice-Hall, 2001.
[10] Hivarinen, A., Kahunen, J., Oja, E., Independent Component Analysis, John Wiley & Sons, 2001.