4.4 Article

Developing a Microbubble-Based Contrast Agent for Synchrotron Multiple-Image Radiography

Journal

MOLECULAR IMAGING AND BIOLOGY
Volume 24, Issue 4, Pages 590-599

Publisher

SPRINGER
DOI: 10.1007/s11307-022-01705-5

Keywords

Contrast agents; Multiple-image radiography; Microbubbles; Synchrotron; Ultra-small-angle X-ray scattering

Funding

  1. canadian network for research and innovation in machining technology, natural sciences and engineering research council of canada [RGPIN-2018-06505]

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The study aimed to find a contrast agent for multiple-image radiography (MIR). After evaluating the size, shell material, and concentration of microbubbles through experiments, it was found that lipid microbubbles of 6-10 μm are viable contrast agents, with a minimum concentration of 5x10^7 microbubbles/ml needed to generate a detectable signal.
Purpose Multiple-image radiography (MIR) is an analyzer-based synchrotron X-ray imaging approach capable of dissociating absorption, refraction, and scattering components of X-ray interaction with the material. It generates additional image contrast mechanisms (besides absorption), especially in the case of soft tissues, while minimizing absorbed radiation dose. Our goal is to develop a contrast agent for MIR using ultrasound microbubbles by carrying out a systematic assessment of size, shell material, and concentration. Procedures Microbubbles were synthesized with two different shell materials: phospholipid and polyvinyl-alcohol. Polydisperse perfluorobutane-filled lipid microbubbles were divided into five size groups using centrifugation. Two distributions of air-filled polymer microbubbles were generated: 2-3 mu m and 3-4 mu m. A subset of polymer microbubbles 3-4 mu m had iron oxide nanoparticles incorporated into their shell or coated on their surface. Microbubbles were immobilized in agar with different concentrations: 5 x 10(7), 5 x 10(6), and 5 x 10(5) MBs/ml. MIR was conducted on the BioMedical Imaging and Therapy beamline at the Canadian Light Source. Three images were generated: Gaussian amplitude, refraction, and ultra-small-angle X-ray scattering (USAXS). The contrast signal was quantified by measuring mean pixel values and comparing them with agar. Results No difference was detected in absorption or refraction images of all tested microbubbles. Using USAXS, a significant signal increase was observed with lipid microbubbles 6-10 mu m at the highest concentration (p = 0.02), but no signal was observed at lower concentrations. Conclusions These data indicate that lipid microbubbles 6-10 mu m are candidates as contrast agents for MIR, specifically for USAXS. A minimum concentration of 5 x 10(7) microbubbles (lipid-shell 6-10 mu m) per milliliter was needed to generate a detectable signal.

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