Low-dose, simple, and fast grating-based X-ray phase-contrast imaging

Low-dose, simple, and fast grating-based X-ray phase-contrast imaging

Phase sensitive X-ray imaging methods can provide substantially increased contrast over conventional absorption-based imaging and therefore new and otherwise inaccessible information. The use of gratings as optical elements in hard X-ray phase imaging overcomes some of the problems that have impaire...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 107; no. 31; pp. 13576 - 13581
Main Authors: Zhu, Peiping, Zhang, Kai, Wang, Zhili, Liu, Yijin, Liu, Xiaosong, Wu, Ziyu, McDonald, Samuel A., Marone, Federica, Stampanoni, Marco, Bai, Chunli
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 03-08-2010
National Acad Sciences
Subjects:
Animals
Field of view
Imaging
Interferometers
Light refraction
Mice
Optics
Phase contrast imaging
Physical Sciences
Radiation Dosage
Radiography
Radiography - methods
Rats
Refraction
Time Factors
Tomography
Tomography, X-Ray - methods
X ray sources
X-rays
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Summary:Phase sensitive X-ray imaging methods can provide substantially increased contrast over conventional absorption-based imaging and therefore new and otherwise inaccessible information. The use of gratings as optical elements in hard X-ray phase imaging overcomes some of the problems that have impaired the wider use of phase contrast in X-ray radiography and tomography. So far, to separate the phase information from other contributions detected with a grating interferometer, a phase-stepping approach has been considered, which implies the acquisition of multiple radiographic projections. Here we present an innovative, highly sensitive X-ray tomographic phase-contrast imaging approach based on grating interferometry, which extracts the phase-contrast signal without the need of phase stepping. Compared to the existing phase-stepping approach, the main advantages of this new method dubbed "reverse projection" are not only the significantly reduced delivered dose, without the degradation of the image quality, but also the much higher efficiency. The new technique sets the prerequisites for future fast and low-dose phase-contrast imaging methods, fundamental for imaging biological specimens and in vivo studies.
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Edited* by Chunli Bai, Chinese Academy of Sciences, Beijing, China, and approved June 30, 2010 (received for review March 14, 2010)
Author contributions: P.Z. and Z. Wu designed research; K.Z., Z.Wang, Y.L., and X.L. worked out the algorithm; P.Z., Z.Wu, S.M., F.M., and M.S. designed and performed the experiment; K.Z., S.M., F.M., and M.S. analyzed data; and Z.Wu, P.Z., and M.S. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1003198107