Title :
Reconstruction of Patient-Specific 3D Bone Model from Biplanar X-Ray Images and Point Distribution Models
Author_Institution :
MEM Res. Center, Bern Univ., Switzerland
Abstract :
Reconstruction of patient-specific three-dimensional (3D) bone model from biplanar two-dimensional (2D) X-ray images and point distribution models (PDM) is discussed. We present a stable and accurate approach combining regularized morphing and shape deformation, and show its application to reconstruction of proximal femur. A novel image-to-model correspondence building method using directly the edge pixels detected from the 2D images and the apparent contour extracted from the 3D model is proposed to convert a 2D/3D reconstruction problem to a 3D/3D one, whose solutions are well studied. Quantitative and qualitative evaluation results on eleven cadaveric dry bones are given which indicate the validity of our approach.
Keywords :
bone; diagnostic radiography; edge detection; feature extraction; image morphing; image reconstruction; image registration; medical image processing; physiological models; solid modelling; apparent contour extraction; biplanar two-dimensional X-ray image reconstruction; cadaveric dry bones; edge pixels detection; image registration; image-to-model correspondence building method; patient-specific 3D bone model; point distribution models; proximal femur; regularized morphing; shape deformation; Bones; Data mining; Energy measurement; Image converters; Image edge detection; Image reconstruction; Image segmentation; Pixel; Shape measurement; X-ray imaging; Bones; X-ray imaging; image reconstruction;
Conference_Titel :
Image Processing, 2006 IEEE International Conference on
Conference_Location :
Atlanta, GA
Print_ISBN :
1-4244-0480-0
DOI :
10.1109/ICIP.2006.312539
