Autor: |
Massimi, Lorenzo, Meganck, Jeffrey A., Towns, Rebecca, Olivo, Alessandro, Endrizzi, Marco |
Předmět: |
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Zdroj: |
Medical Physics; Jan2021, Vol. 48 Issue 1, p376-386, 11p |
Abstrakt: |
Purpose: In this work the performance of a compact multiresolution and multicontrast x‐ray phase system based on edge illumination is investigated. It has been designed for small animal imaging and with a limited footprint for ease of deployment in laboratories. Methods: The presented edge illumination system is based on a compact microfocus tungsten x‐ray source combined with a flat panel detector. The source has a maximum output of 10 W when the minimum spot size of about 15 μm is used. The system has an overall length of 70 cm. A new double sample mask design, obtained by arranging both skipped and nonskipped configurations on the same structure, provides dual resolution capability. To test the system, we carried out computed tomography (CT) scans of a plastic phantom with different source settings using both single‐image and multi‐image acquisition schemes at different spatial resolutions. In addition, CT scans of an ex‐vivo mouse specimen were acquired at the best identified working conditions to demonstrate the application of the presented system to small animal imaging. Results: We found this system delivers good image quality, allowing for an efficient material separation and improving detail visibility in small animals thanks to the higher signal‐to‐noise ratio (SNR) of phase contrast with respect to conventional attenuation contrast. The system offers high versatility in terms of spatial resolution thanks to the double sample mask design integrated into a single scanner. The availability of both multi‐ and single‐image acquisition schemes coupled with their dedicated retrieval algorithms, allows different working modes which can be selected based on user preference. Multi‐image acquisition provides quantitative separation of the real and imaginary part of the refractive index, however, it requires a long scanning time. On the other hand, the single image approach delivers the best material separation and image quality at all the investigated source settings with a shorter scanning time but at the cost of quantitativeness. Finally, we also observed that the single image approach combined with a high‐power x‐ray source may result in a fast acquisition protocol compatible with in‐vivo imaging. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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