1. 3D reconstruction of both shape and Bone Mineral Density distribution of the femur from DXA images
- Author
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Tristan Whitmarsh, Luis Miguel del Río Barquero, Thomas M. Link, Karl D. Fritscher, Alejandro F. Frangi, Rainer Schubert, Mathieu De Craene, Ludovic Humbert, and Felix Eckstein
- Subjects
musculoskeletal diseases ,Bone mineral ,medicine.diagnostic_test ,business.industry ,musculoskeletal, neural, and ocular physiology ,Statistical atlas ,Dual energy X-rays absorptiometry ,Osteoporosis ,3D reconstruction ,Biomechanics ,Iterative reconstruction ,musculoskeletal system ,medicine.disease ,Bone mineral density ,medicine ,Medical imaging ,Femur ,business ,Nuclear medicine ,Dual-energy X-ray absorptiometry - Abstract
The diagnosis of osteoporosis and the prevention of femur fractures is a major challenge for our society. However, the diagnosis performed in clinical routine from Dual Energy X-ray Absorptiometry (DXA) images is limited. This paper proposes a 3D reconstruction method of both the shape and the Bone Mineral Density (BMD) distribution of the proximal femur from routinely used DXA images. The reconstruction accuracy that can be obtained from single-view and multi-view DXA devices was assessed. This evaluation, from 20 bone specimens and simulated DXA images, highlighted a mean shape accuracy of 1.3mm and a BMD accuracy of 4.4% from a single-view DXA image. A multi-view configuration with 2 views (frontal-sagittal) appeared as a good compromise (mean shape accuracy of 0.9mm and BMD accuracy of 3.2%). We are currently using this method for in vivo clinical studies in order to improve the diagnosis of osteoporosis and the prevention of femur fractures.
- Published
- 2010