An effective technique for calibrating the intrinsic parameters of a vascular C-arm from a planar target

Sébastien Gorges; Erwan Kerrien; Marie-Odile Berger; Yves Trousset; Jérémie Pescatore; René Anxionnat; Luc Picard

doi:10.1117/12.652118

13 March 2006 An effective technique for calibrating the intrinsic parameters of a vascular C-arm from a planar target

Sébastien Gorges, Erwan Kerrien, Marie-Odile Berger, Yves Trousset, Jérémie Pescatore, René Anxionnat, Luc Picard

Proceedings Volume 6141, Medical Imaging 2006: Visualization, Image-Guided Procedures, and Display; 61411W (2006) https://doi.org/10.1117/12.652118
Event: Medical Imaging, 2006, San Diego, California, United States

Abstract

The real time recovery of the projection geometry is a fundamental issue in interventional navigation applications (e.g. guide wire reconstruction, medical augmented reality). In most works, the intrinsic parameters are supposed to be constant and the extrinsic parameters (C-arm motion) are deduced either from the orientation sensors of the C-arm or from other additional sensors (eg. optical and/or electro-magnetic sensors). However, due to the weight of the X-ray tube and the C-arm, the system is undergoing deformations which induce variations of the intrinsic parameters as a function of the C-arm orientation. In our approach, we propose to measure the effects of the mechanical deformations onto the intrinsic parameters in a calibration procedure. Robust calibration methods exist (the gold standard is the multi-image calibration) but they are time consuming and too tedious to set up in a clinical context. For these reasons, we developed an original and easy to use method, based on a planar calibration target, which aims at measuring with a high level of accuracy the variation of the intrinsic parameters on a vascular C-arm. The precision of the planar-based method was evaluated by the mean of error propagation using techniques described in.⁸ It appeared that the precision of the intrinsic parameters are comparable to the one obtained from the multi-image calibration method. The planar-based method was also successfully used to assess to behavior of the C-arm with respect to the C-arm orientations. Results showed a clear variation of the principal point when the LAO/RAO orientation was changed. In contrast, the intrinsic parameters do not change during a cranio-caudal C-arm motion.

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Sébastien Gorges, Erwan Kerrien, Marie-Odile Berger, Yves Trousset, Jérémie Pescatore, René Anxionnat, and Luc Picard "An effective technique for calibrating the intrinsic parameters of a vascular C-arm from a planar target", Proc. SPIE 6141, Medical Imaging 2006: Visualization, Image-Guided Procedures, and Display, 61411W (13 March 2006); https://doi.org/10.1117/12.652118

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