Bone MRI segmentation assessment based on synchrotron radiation computed microtomography
Résumé
In this paper, we propose an original scheme to assess the efficiency of segmentation algorithms requested to quantify bone architecture from three-dimensional (3-D) micromagnetic resonance imaging (/spl mu/MRI) techniques. Our scheme takes advantage of the high-quality images provided by synchrotron radiation computed microtomography (SR /spl mu/CT). To perform this assessment, calcaneus samples were acquired from both SR /spl mu/CT and MRI devices. The segmentation process is evaluated by comparing morphometric and topologic parameters computed from the SR /spl mu/CT reference images and those computed from the MRI segmented images. Both an adaptive thresholding algorithm and a region-growing algorithm are tested within this framework.