Gradient-based 2-D/3-D rigid registration of fluoroscopic X-ray to CT

Gradient-based 2-D/3-D rigid registration of fluoroscopic X-ray to CT (2003)

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by Harel Livyatan , Ziv Yaniv , Student Member , Leo Joskowicz , Senior Member

Venue:	IEEE Trans. Med. Imag
Citations:	14 - 0 self

BibTeX

@ARTICLE{Livyatan03gradient-based2-d/3-d,
    author = {Harel Livyatan and Ziv Yaniv and Student Member and Leo Joskowicz and Senior Member},
    title = {Gradient-based 2-D/3-D rigid registration of fluoroscopic X-ray to CT},
    journal = {IEEE Trans. Med. Imag},
    year = {2003},
    volume = {22},
    pages = {1395--1406}
}

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Abstract

Abstract—We present a gradient-based method for rigid registration of a patient preoperative computed tomography (CT) to its intraoperative situation with a few fluoroscopic X-ray images obtained with a tracked C-arm. The method is noninvasive, anatomybased, requires simple user interaction, and includes validation. It is generic and easily customizable for a variety of routine clinical uses in orthopaedic surgery. Gradient-based registration consists of three steps: 1) initial pose estimation; 2) coarse geometry-based registration on bone contours, and; 3) fine gradient projection registration (GPR) on edge pixels. It optimizes speed, accuracy, and robustness. Its novelty resides in using volume gradients to eliminate outliers and foreign objects in the fluoroscopic X-ray images, in speeding up computation, and in achieving higher accuracy. It overcomes the drawbacks of intensity-based methods, which are slow and have a limited convergence range, and of geometry-based methods, which depend on the image segmentation quality. Our simulated, in vitro, and cadaver experiments on a human pelvis CT, dry vertebra, dry femur, fresh lamb hip, and human pelvis under realistic conditions show a mean 0.5–1.7 mm (0.5–2.6 mm maximum) target registration accuracy. Index Terms—Fluoroscopic X-ray to CT registration, gradient based, image registration, 2D/3D rigid registration. I.

Citations

1679	A method for registration of 3D shapes - Besl, McKay - 1992
557	Closed-form solution of absolute orientation using unit quaternions - Horn
363	Multimodality image registration by maximization of mutual information - Maes, Collignon, et al. - 1997
353	Iterative point matching for registration of free-form curves and surfaces - Zhang - 1994
273	Multi-modal volume registration by maximization of mutual information - Wells, Viola, et al. - 1996
206	Principles of Computerized Tomographic Imaging - Kak, Slaney - 1987
74	Interactive segmentation with intelligent scissors - Mortensen, Barrett - 1998
58	A comparison of similarity measures for use in 2-D-3-D medical image registration - Penney, Weese, et al. - 1998
51	Image registration by maximization of combined mutual information and gradient information - Pluim, Maintz, et al.
45	A survey of medical image registration” Med - Maintz, Viergever - 1998
31	Predicting error in rigid-body, point-based registration - Fitzpatrick, West, et al. - 1998
30	An image-directed robotic system for precise orthopaedic surgery - Taylor, Paul, et al. - 1994
27	Fast and robust smallest enclosing balls - Gärtner - 1999
21	Anatomy-Based Registration of Three Dimensional - Lavallee, Szeliski, et al. - 1995
16	Interactive three dimensional inspection of patient setup in radiation therapy using digital portal images and computed tomography data - Gilhuijs, Drukker, et al. - 1996
14	2D-3D rigid registration of X-ray fluoroscopy and CT images using mutual information and sparsely sampled histogram estimators - Zollei - 2001
13	Iterative X-Ray/CT Registration Using Accelerated Volume Rendering - LaRose - 2001
11	HipNav: Pre-operative Planning and Intra-operative Navigational Guidance for Acetabular Implant Placement - DiGioia - 1995
11	Towards automatic registration between CT and X-ray images: cooperation between 3D/2D registration and 2D edge detection - Hamadeh, Sautot, et al. - 1995
11	Anatomy-based registration of CT-scan and intraoperative X ray images for guiding a surgical robot - Guéziec, Kazanzides, et al. - 1998
8	The Neurostation - a highly accurate minimally invasive solution to frameless stereotactic neurosurgery - Smith, Frank, et al. - 1994
8	Geometrical transformation approximation for 2D/3D intensity-based registration of portal images and CT scan - Sarrut, Clippe - 2001
8	Registration of 3D CT- and ultrasound-datasets of the spine using bone structures, Comput Aided Surg 7 - Brendel, Winter, et al. - 2002
8	Transgraph: interactive intensity-based 2D/3D registration of X-ray and CT data,” in - LaRose, Bayouth, et al. - 2000
8	Robust automatic c-arm calibration for fluoroscopy-based navigation: A practical approach - Livyatan, Yaniv, et al.
6	FRACAS: A System for Computer-Aided Image-Guided Long Bone Fracture Surgery - Joskowicz - 1999
6	Spotlights: A robust method for surface-based registration in orthopedic surgery - Ma, Ellis, et al. - 1999
5	et al. A patient–to–computed–tomography image registration method based on digitally reconstructed radiographs - Lemieux - 1994
5	Automated 3-Dimensional computed tomographic and fluoroscopic image registration - Hamadeh, Lavallée, et al. - 1998
4	F: The application accuracy of the Neuromate robot: A quantitative comparison with frameless and frame-based surgical localization systems. Comput Aided Surg 7:90–98 - QH, Zamorano, et al. - 2002
4	Image-guided robotic radiosurgery - Jr, Murphy, et al. - 1999
4	Robot-guided long bone intramedullary distal locking: concept and preliminary results - Joskowicz, Milgrom, et al. - 2002
3	Rigid 2D/3D registration of intraoperative digital X-ray images and preoperative - Tomaˇzevič, Likar, et al.
3	Registration of 3-d images using weighted geometrical features - Jr, Dawant, et al. - 1996
3	Transfer functions in DRR volume rendering - Cai
2	Fluoroscopy as an imaging means for computer assisted surgical navigation Computer Aided Surgery 4(2): 65--76 - Hofstetter, Slomczykowski, et al. - 1999
1	An automatic six-degree-of-freedom registration algorithm for image-guided frameless stereotaxic radiosurgery - Murphy - 1997
1	Multi-view contourless registration of bone structures using a single calibrated X-ray fluoroscope - Roth, Brack, et al. - 1999
1	et al., “Providing visual information to validate 2D to 3D registration,” Med - Guéziec
1	Validation of a 2D to 3D registration algorithm for aligning preoperative CT images and intraoperative fluoroscopy images,” Med - Penney, Batchelor, et al.
1	ILWIS: The integrated land and watershed management information system - unknown authors - 1988
1	Calibration and Gradient-Based Rigid Registration of Fluoroscopic X-ray to CT, for Intra-Operative Navigation - Livyatan - 2003
1	Comparative in vitro study of contact and image-based rigid registration for Comput - Sadowski, Yaniv, et al.
1	Restricted surface matchingnumerical optimization and technical evaluation - Bächler, Bunke, et al.
1	Gradient-based registration of 3D - Tomaˇzevič, Likar, et al. - 2001