A 3D mathematical model for planning ostectomy on long-bone angular deformities

This study describes a 3D mathematical model for planning a corrective ostectomy on long bones with angular deformities based on CT imaging. The use of three-dimensional information allows the model to compute and correct the bone angulation and rotation. The cutting point selection is developed min...

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Veröffentlicht in:	Journal of computational and applied mathematics 2016-01, Vol.291, p.58-65
Hauptverfasser:	Domenech, L., Muñoz-Almaraz, F.J., Serra, C.I., Soler, C., Montes, N.
Format:	Artikel
Sprache:	eng
Schlagworte:	3D imaging Angular deformity Bones Computation CORA Corrective ostectomy Cutting Deformation Imaging Mathematical models Three dimensional Three dimensional models
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creator	Domenech, L. Muñoz-Almaraz, F.J. Serra, C.I. Soler, C. Montes, N.
description	This study describes a 3D mathematical model for planning a corrective ostectomy on long bones with angular deformities based on CT imaging. The use of three-dimensional information allows the model to compute and correct the bone angulation and rotation. The cutting point selection is developed minimizing the bone length reduction inherent in an ostectomy process. An example of its application on a two year old dog is shown at the end of the paper.
doi_str_mv	10.1016/j.cam.2015.03.058
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subjects	3D imaging Angular deformity Bones Computation CORA Corrective ostectomy Cutting Deformation Imaging Mathematical models Three dimensional Three dimensional models
title	A 3D mathematical model for planning ostectomy on long-bone angular deformities
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