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使用双平面X射线进行体内三维重建的参数化个体特异性模型:应用于股骨上端。

Parametric subject-specific model for in vivo 3D reconstruction using bi-planar X-rays: application to the upper femoral extremity.

作者信息

Baudoin A, Skalli W, de Guise J A, Mitton D

机构信息

Laboratoire de Biomécanique (UMR CNRS 8005), ENSAM-CNRS, 151, Boulevard de l'hôpital, 75013, Paris, France.

出版信息

Med Biol Eng Comput. 2008 Aug;46(8):799-805. doi: 10.1007/s11517-008-0353-8. Epub 2008 Jun 10.

DOI:10.1007/s11517-008-0353-8
PMID:18543013
Abstract

Although feasibility of accurate 3D reconstruction of the proximal epiphysis of the femur from biplanar X-rays (frontal and lateral) has been assessed, in vivo application is limited due to bone superposition. The aim of this study was to propose a specific algorithm to get accurate and reproducible, low dose in vivo 3D reconstruction. To achieve this goal, a parametric subject-specific model was introduced as a priori knowledge. This geometric model was based on a database based on proximal epiphysis of 60 femurs. The accuracy was estimated using comparisons to CT scans on 13 cadaveric femurs, then in vivo intra- and inter- observer reproducibility was assessed using a set of 23 femurs. The mean for the relative difference was 0.2 mm for the in vitro 3D accuracy. The mean error was 1.0 mm with maximum value of 5.1 mm in ideal conditions (in vitro). The confidence interval for the inter-observer reproducibility was within +/-2.2 mm. This method gave us a reproducible tool in order to get in vivo 3D reconstructions of the femur proximal epiphysis from biplanar X-rays.

摘要

尽管已经评估了从双平面X射线(正位和侧位)对股骨近端骨骺进行精确三维重建的可行性,但由于骨骼重叠,其在体内的应用受到限制。本研究的目的是提出一种特定算法,以获得准确、可重复的低剂量体内三维重建。为实现这一目标,引入了一个参数化的个体特异性模型作为先验知识。该几何模型基于一个包含60个股骨近端骨骺的数据库。通过与13具尸体股骨的CT扫描结果进行比较来估计准确性,然后使用一组23个股骨评估体内观察者内和观察者间的可重复性。体外三维准确性的相对差异平均值为0.2毫米。在理想条件下(体外),平均误差为1.0毫米,最大值为5.1毫米。观察者间可重复性的置信区间在±2.2毫米内。该方法为我们提供了一种可重复的工具,以便从双平面X射线获得股骨近端骨骺的体内三维重建。

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