A four-grating interferometer for x-ray multi-contrast imaging

dc.contributor.authorMiao, Houxun
dc.contributor.authorWilliams, James C., Jr.
dc.contributor.authorJosell, Daniel
dc.contributor.departmentAnatomy, Cell Biology and Physiology, School of Medicine
dc.date.accessioned2024-09-19T11:17:32Z
dc.date.available2024-09-19T11:17:32Z
dc.date.issued2024
dc.description.abstractBackground: X-ray multi-contrast imaging with gratings provides a practical method to detect differential phase and dark-field contrast images in addition to the x-ray absorption image traditionally obtained in laboratory or hospital environments. Systems have been developed for preclinical applications in areas including breast imaging, lung imaging, rheumatoid arthritis hand imaging and kidney stone imaging. Purpose: Prevailing x-ray interferometers for multi-contrast imaging include Talbot-Lau interferometers and universal moiré effect-based phase-grating interferometers. Talbot-Lau interferometers suffer from conflict between high interferometer sensitivity and large field of view (FOV) of the object being imaged. A small period analyzer grating is necessary to simultaneously achieve high sensitivity and large FOV within a compact imaging system but is technically challenging to produce for high x-ray energies. Phase-grating interferometers suffer from an intrinsic fringe period ranging from a few micrometers to several hundred micrometers that can hardly be resolved by large area flat panel x-ray detectors. The purpose of this work is to introduce a four-grating x-ray interferometer that simultaneously allows high sensitivity and large FOV, without the need for a small period analyzer grating. Methods: The four-grating interferometer consists of a source grating placed downstream of and close to the x-ray source, a pair of phase gratings separated by a fixed distance placed downstream of the source grating, and an analyzer grating placed upstream of and close to the x-ray detector. The object to be imaged is placed upstream of and close to the phase-grating pair. The distance between the source grating and the phase-grating pair is designed to be far larger than that between the phase-grating pair and the analyzer grating to promote simultaneously high sensitivity and large FOV. The method was evaluated by constructing a four-grating interferometer with an 8 µm period source grating, a pair of phase gratings of 2.4 µm period, and an 8 µm period analyzer grating. Results: The fringe visibility of the four-grating interferometer was measured to be ≈24% at 40 kV and ≈18% at 50 kV x-ray tube operating voltage. A quartz bead of 6 mm diameter was imaged to compare the theoretical and experimental phase contrast signal with good agreement. Kidney stone specimens were imaged to demonstrate the potential of such a system for classification of kidney stones. Conclusions: The proposed four-grating interferometer geometry enables a compact x-ray multi-contrast imaging system with simultaneously high sensitivity and large FOV. Relaxation of the requirement for a small period analyzer grating makes it particularly suitable for high x-ray energy applications such as abdomen and chest imaging.
dc.eprint.versionAuthor's manuscript
dc.identifier.citationMiao H, Williams JC Jr, Josell D. A four-grating interferometer for x-ray multi-contrast imaging. Med Phys. 2024;51(5):3648-3657. doi:10.1002/mp.17052
dc.identifier.urihttps://hdl.handle.net/1805/43423
dc.language.isoen_US
dc.publisherWiley
dc.relation.isversionof10.1002/mp.17052
dc.relation.journalMedical Physics
dc.rightsPublisher Policy
dc.sourcePMC
dc.subjectX‐ray gratings
dc.subjectX‐ray interferometer
dc.subjectX‐ray multi‐contrast imaging
dc.titleA four-grating interferometer for x-ray multi-contrast imaging
dc.typeArticle
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