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Proceedings Paper

Geometric distortion of digital angiography image
Author(s): Tianhu Lei; J. Marc Simard; Wilfred Sewchand; John M. Mathis
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Paper Abstract

Digital angiography remains valuable in a diagnostic environment where anatomical definition is important. However it is not sufficiently reliable in circumstances where precise geometry is important. The geometric distortion of digital angiography is mainly caused by the inherent, non-uniform electromagnetic field of the image intensifier board. In this paper we quantify this distortion so as to evaluate its clinical relevance. We utilize image fusion with fiducial markers and image exploration with cursor projection in this investigation. Fiducial markers on the images were normalized first and then used as baselines to scale and orient the corresponding images so they could be accurately registered, superimposed, and subtracted. Image exploration with cursor projection allowed for easy identification of the same point on corresponding images, which provided quantitative evaluation of geometric differences between digital and analogue angiography images. Based on our study, we concluded: (1) compared with MRI geometric distortion of as much as 2 mm, digital angiography is clinically appropriate for stereotactic application; (2) with an improved test object, the results would be more accurate.

Paper Details

Date Published: 2 May 1997
PDF: 9 pages
Proc. SPIE 3032, Medical Imaging 1997: Physics of Medical Imaging, (2 May 1997); doi: 10.1117/12.273990
Show Author Affiliations
Tianhu Lei, Univ. of Maryland/Baltimore School of Medicine (United States)
J. Marc Simard, Univ. of Maryland/Baltimore School of Medicine (United States)
Wilfred Sewchand, Univ. of Maryland/Baltimore School of Medicine (United States)
John M. Mathis, Johns Hopkins Univ. School of Medicine (United States)


Published in SPIE Proceedings Vol. 3032:
Medical Imaging 1997: Physics of Medical Imaging
Richard L. Van Metter; Jacob Beutel, Editor(s)

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