4044

Fast 2D-3D registration using GPU-based preprocessing

Kyehyun Kim, Sungjin Park, Helen Hong, Yeong Gil Shin
Sch. of Electr. Eng. & Comput. Sci., Seoul Nat. Univ., South Korea
Proceedings of 7th International Workshop on Enterprise networking and Computing in Healthcare Industry, 2005. HEALTHCOM 2005

@inproceedings{kim2005fast,

   title={Fast 2D-3D registration using GPU-based preprocessing},

   author={Kim, K. and Park, S. and Hong, H. and Shin, Y.G.},

   booktitle={Enterprise networking and Computing in Healthcare Industry, 2005. HEALTHCOM 2005. Proceedings of 7th International Workshop on},

   pages={139–143},

   year={2005},

   organization={IEEE}

}

Source Source   

1337

views

This paper describes the fast point-based 2-D/3-D registration that will increase the registration speed of intraoperative two-dimensional (2-D) fluoroscopy and preoperative three-dimensional (3-D) CT images using GPU (graphics processing unit)-based DRR’s preprocessing. Rigid 2-D/3-D registration of 2-D fluoroscopy images with 3-D CT images can be used for image-guided surgery or intraoperative navigation. X-ray fluoroscopy images provide real-time visualization. However, in general, resolution of fluoroscopy images is limited, these modalities are only 2-D and features in the front of body overlap one. Because of its drawback, three-dimensional imaging modalities such as computed tomography (CT) and magnetic resonance (MR) imaging are broadly used in clinical diagnostics and treatment planning [1], These have the spatial information and high resolution, but at present their use as interventional imaging modalities has been limited. In this paper, to utilize CT information during interventional procedures, a preoperative CT scan is aligned with an intraoperative X-ray fluoroscopy image. In preprocessing procedure we generate CT-derived DRRs using graphic hardware. This method is over 150 times faster than software rendering. And for registration accuracy and speed, we propose point-based 2D-3Dregistration of phantom dataset. And to reduce computation cost, we apply point-based registration technique. Because this method leads the computation time to about one second, the registration speed is enough to apply to intervention.
No votes yet.
Please wait...

* * *

* * *

HGPU group © 2010-2024 hgpu.org

All rights belong to the respective authors

Contact us: