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Three Dimensional X-Ray Image Synthesis

Published online by Cambridge University Press:  06 March 2019

David G. Grant*
Affiliation:
The Johns Hopkins University/Applied Physics Laboratory, Silver Spring, Maryland 20910
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Abstract

Tomographic systems are able to produce cross sectional planar images of three dimensional volumes because of the relative motion of the source, film and the volume under examination. Analysis shows that the image produced is a result of a three dimensional linear filtering process where the filter characteristics are determined by the scan geometry (3). If, instead of integrating continuously on a single film, a set of N radiographs are recorded, each corresponding to a point along the scan trajectory, then a simple filter can be defined to reconstruct the entire three dimensional structure from this data. In this case, the transfer function exhibits repetitive peaks whose spacing is determined by N and whose width is determined by the total scan length. The number of views required to produce the same “blurring” as the continuous case can then be determined by the Nyquist criteria(3).

An optical projection system based on circular geometry for producing three dimensional medical images has been fabricated and tested. The technique can be generalized to any geometry and to all x-ray applications where plane-by-plane examination of a structure would prove beneficial.

Type
Research Article
Copyright
Copyright © International Centre for Diffraction Data 1972

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References

1. Tretiak, Oleh J., David Ozonoff, John Klopping, and Murray Eden, “Calculation of Internal Structure from Multiple Radiograms,” Proceedings of the Two-Dimensional Digital Signal Processing Conference, University of Missouri, Columbia, Missouri, October 1971.Google Scholar
2. Groh, G., “Composed Holograms for Displaying 3-D Images of X-Ray Objects,” proceedings of the 1971 Optical and Acoustical Holography Conference, NATO Advanced Study Institute, Plenum, 1972.Google Scholar
3. Grant, D. G., “Tomosynthesis: A Three Dimensional Radiographic Imaging Technique,” IEEE Transactions on Bio-Medical Engineering, Vol. BME-19, No. 1, pp. 2028, January 1972.Google Scholar