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David Mitton
Researcher at Claude Bernard University Lyon 1
Publications - 164
Citations - 3524
David Mitton is an academic researcher from Claude Bernard University Lyon 1. The author has contributed to research in topics: Cortical bone & Cancellous bone. The author has an hindex of 33, co-authored 155 publications receiving 3245 citations. Previous affiliations of David Mitton include Centre national de la recherche scientifique & IFSTTAR.
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Fast accurate stereoradiographic 3D-reconstruction of the spine using a combined geometric and statistic model.
TL;DR: The stereoradiographic 3D-reconstruction method allows for a significant reduction of the whole reconstruction time, with regard to previously described methods, and was found to be comparable to the accuracy of previous methods.
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Volumetric quantitative computed tomography of the proximal femur: relationships linking geometric and densitometric variables to bone strength. Role for compact bone
Valérie Bousson,A. Le Bras,F. Roqueplan,Yan Kang,David Mitton,S. Kolta,Catherine Bergot,Wafa Skalli,E. Vicaut,Willi A. Kalender,Klaus Engelke,J.-D. Laredo +11 more
TL;DR: QCT-MIAF reported here provides analysis of both geometric and densitometric variables characterizing cortical and trabecular bone, suggesting that QCT may better explain failure load variance for cervical fracture than the gold standard DXA-provided BMD.
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3D reconstruction method from biplanar radiography using non-stereocorresponding points and elastic deformable meshes
TL;DR: This technique is used to obtain the 3D geometry of 18 cadaveric upper cervical vertebrae and results indicate that the obtained reconstruction is close to the actual vertebral geometry.
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A biplanar reconstruction method based on 2D and 3D contours: application to the distal femur.
TL;DR: A three-dimensional (3D) reconstruction algorithm based on contours identification from biplanar radiographs is presented and the evaluation was performed on 8 distal femurs comparing the 3D models obtained to CT-scan reconstructions.
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Surgical correction of scoliosis by in situ contouring: a detorsion analysis.
TL;DR: The axial rotation was measured in clinics on standing patients with scoliosis from three-dimensional stereoradiographic reconstruction and demonstrated a reliable detorsion obtained by ISC.