P. Leborgne scite author profile

P. Leborgne

3Publications

47Citation Statements Received

38Citation Statements Given

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Claude Bernard University Lyon 1, Arts et Metiers Institute of Technology

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Validation of the non-stereo corresponding points stereoradiographic 3D reconstruction technique

Mitulescu

Semaan

Guise

et al. 2001

Med. Biol. Eng. Comput.

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Several 3D reconstruction techniques deriving from stereoradiographic DLT have been presented during the last 15 years, but these techniques have usually been limited in accuracy because of the small number of corresponding anatomical landmarks identified on both radiographs. A new technique has recently been proposed to perform 3D reconstruction of the spine using not only the stereo-corresponding anatomical landmarks (seen on both frontal and sagittal X-ray films) but also some non-stereo-corresponding ones. This technique (called non-stereo-corresponding points or NSCP) has already been used for cervical dry vertebrae. In the present study, we focus on the validation of this technique for lumbar vertebrae by comparing four techniques: direct measurement, CT scan, 3D reconstruction by stereoradiography using a direct linear transformation (DLT) algorithm and the NSCP technique. The accuracy of the NSCP technique was also evaluated on different vertebral regions. The global results show mean errors of 1.1 mm and maximum of 7.8 mm with regard to direct measurements. These mean errors are close to those obtained using 3D reconstructions from CT scan using 1 mm cuts.

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Whole body segment inertia parameters estimation from movement and ground reaction forces: a feasibility study

Robert

Leborgne

Abid

et al. 2017

Computer Methods in Biomechanics and Biomedical Engineering

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Estimation of body segment inertia parameters from 3D body scanner images: a semi-automatic method dedicated to human movement analysis applications

Robert

Leborgne

Beurier

et al. 2017

Computer Methods in Biomechanics and Biomedical Engineering

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P. Leborgne

Validation of the non-stereo corresponding points stereoradiographic 3D reconstruction technique

Whole body segment inertia parameters estimation from movement and ground reaction forces: a feasibility study

Estimation of body segment inertia parameters from 3D body scanner images: a semi-automatic method dedicated to human movement analysis applications

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