Efficient framework for deformable 2D-3D registration

被引:1
作者
Fluck, Oliver [1 ,3 ]
Aharon, Shmuel [2 ]
Khamene, Ali [1 ]
机构
[1] Siemens Corp Res, Imaging & Visualizat Dept, Princeton, NJ 08540 USA
[2] Siemens Med Solut, Oncol Care Syst, Malvern, PA 19355 USA
[3] Otto Von Guericke Univ, D-39106 Magdeburg, Germany
来源
MEDICAL IMAGING 2008: VISUALIZATION, IMAGE-GUIDED PROCEDURES, AND MODELING, PTS 1 AND 2 | 2008年 / 6918卷
关键词
radiation therapy; 2D-3D; registration; GPU; volume deformation; back projection; CT; X-ray;
D O I
10.1117/12.772911
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Using 2D-3D registration it is possible to extract the body transformation between the coordinate systems of X-ray and volumetric CT images. Our initial motivation is the improvement of accuracy of external beam radiation therapy, an effective method for treating cancer, where CT data play a central role in radiation treatment planning. Rigid body transformation is used to compute the correct patient setup. The drawback of such approaches is that the rigidity assumption on the imaged object is not valid for most of the patient cases, mainly due to respiratory motion. In the present work, we address this limitation by proposing a flexible framework for deformable 2D-3D registration consisting of a learning phase incorporating 4D CT data sets and hardware accelerated free form DRR generation, 2D motion computation, and 2D-3D back projection.
引用
收藏
页数:8
相关论文
共 50 条
  • [31] Iterative Closest Curve: A Framework for Curvilinear Structure Registration Application to 2D/3D Coronary Arteries Registration
    Benseghir, Thomas
    Malandain, Gregoire
    Vaillant, Regis
    [J]. MEDICAL IMAGE COMPUTING AND COMPUTER-ASSISTED INTERVENTION (MICCAI 2013), PT I, 2013, 8149 : 179 - 186
  • [32] Estimation of Cochlear Implant Insertion Depth Using 2D-3D Registration of Postoperative X-Ray and Preoperative CT Images
    Liu, George S.
    Cooperman, Shayna P.
    Neves, Caio A.
    Blevins, Nikolas H.
    [J]. OTOLOGY & NEUROTOLOGY, 2024, 45 (03) : e156 - e161
  • [33] Robust initialization of 2D-3D image registration using the projection-slice theorem and phase correlation
    van der Bom, M. J.
    Bartels, L. W.
    Gounis, M. J.
    Homan, R.
    Timmer, J.
    Viergever, M. A.
    Pluim, J. P. W.
    [J]. MEDICAL PHYSICS, 2010, 37 (04) : 1884 - 1892
  • [34] A fast object registration method for augmented reality assembly with simultaneous determination of multiple 2D-3D correspondences
    Wang, Ke
    Liu, Daxin
    Liu, Zhenyu
    Duan, Guifang
    Hu, Liang
    Tan, Jianrong
    [J]. ROBOTICS AND COMPUTER-INTEGRATED MANUFACTURING, 2020, 63
  • [35] Evaluation of similarity measures for 3D/2D image registration
    Skerl, Darko
    Likar, Bostjan
    Pernus, Franjo
    [J]. MEDICAL IMAGING 2006: IMAGE PROCESSING, PTS 1-3, 2006, 6144
  • [36] Deformable 3D-2D registration for CT and its application to low dose tomographic fluoroscopy
    Flach, Barbara
    Brehm, Marcus
    Sawall, Stefan
    Kachelriess, Marc
    [J]. PHYSICS IN MEDICINE AND BIOLOGY, 2014, 59 (24) : 7865 - 7887
  • [37] 3D-2D Deformable Image Registration Using Feature-Based Nonuniform Meshes
    Zhong, Zichun
    Guo, Xiaohu
    Cai, Yiqi
    Yang, Yin
    Wang, Jing
    Jia, Xun
    Mao, Weihua
    [J]. BIOMED RESEARCH INTERNATIONAL, 2016, 2016
  • [38] Non-rigid free-form 2D-3D registration using a B-spline-based statistical deformation model
    Yu, Weimin
    Tannast, Moritz
    Zheng, Guoyan
    [J]. PATTERN RECOGNITION, 2017, 63 : 689 - 699
  • [39] Fast 2D-3D marker-based registration of CT and X-ray fluoroscopy images for image-guided surgery
    Hong, Helen
    Kim, Kyehyun
    Park, Sungjin
    [J]. MEDICAL IMAGING 2006: VISUALIZATION, IMAGE-GUIDED PROCEDURES, AND DISPLAY, 2006, 6141
  • [40] Development of fast patient position verification software using 2D-3D image registration and its clinical experience
    Mori, Shinichiro
    Kumagai, Motoki
    Miki, Kentaro
    Fukuhara, Riki
    Haneishi, Hideaki
    [J]. JOURNAL OF RADIATION RESEARCH, 2015, 56 (05) : 818 - 829
12345