Browsing by Author "Masimenko, A"

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    Comparison of propagation-based phase-contrast CT and absorption-based CT for breast imaging using synchrotron radiation
    (Society of Photo-Optical Instrumentation Engineers (SPIE), 2020-05-22) Taba, ST; Lewis, S; Baran, PM; Arhatari, BD; Nesterets, YI; Mayo, SC; Thompson, D; Fox, J; Kumar, B; Prodanovic, Z; Häusermann, D; Masimenko, A; Hall, CJ; Dimmock, M; Pavlov, KM; Peele, AG; Quiney, HM; Lockie, D; Tromba, G; Gureyev, TE; Brennan, PC
    Propagation-based phase-contrast CT (PB-CT) is a novel imaging technique that visualises variations in both X-ray attenuation and refraction. This study aimed to compare the clinical image quality of breast PB-CT using synchrotron radiation with conventional absorption-based CT (AB-CT), at the same radiation dose. Seven breast mastectomy specimens were scanned and evaluated by a group of 14 radiologists and medical imaging experts who assessed the images based on seven radiological image quality criteria. Visual grading characteristics (VGC) were used to analyse the results and the area under the VGC curve was obtained to measure the differences between the two techniques. For six image quality criteria (overall quality, perceptible contrast, lesion sharpness, normal tissue interfaces, calcification visibility and image noise), PB-CT images were superior to AB-CT images of the same dose (AUCVGC: 0.704 to 0.914, P≤.05). For the seventh criteria (artefacts), PB-CT images were also rated better than AB-CT images (AUCVGC: 0.647) but the difference was not significant. The results of this study provide a solid basis for future experimental and clinical protocols of breast PB-CT. © 2020 Society of Photo-Optical Instrumentation Engineers (SPIE).
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    Research in art and archaeology: capabilities and investigations at the Australian Synchrotron
    (Taylor & Francis, 2019-11-26) Brand, HEA; Howard, DL; Huntley, J; Kappen, P; Masimenko, A; Paterson, DJ; Puskar, L; Tobin, MJ
    In the Australian Synchrotron's short history, we have made some important advances in instruments and capabilities that can be employed to study art and archaeology. In this article, we describe the capabilities at the Australian Synchrotron that are well-suited to investigating art, archaeology, and cultural heritage. We also present some case studies that demonstrate the breadth and impact of science that has been performed by researchers using these capabilities. Synchrotron radiation has many advantages that make it ideally suited to investigating art, archaeology and cultural heritage. The broad spectrum of radiation that can be employed and, in particular, the penetrating nature of the radiation at hard X-ray energies give the ability to conduct 3D reconstruction with tomography. In many cases, the techniques can be non-destructive and performed in situ. The intense infrared radiation allows infrared microscopy at diffraction-limited resolution and the recently developed attenuated total internal reflection mode can probe the surface of very delicate samples. In the following, we describe the relevant beamlines, their capabilities, and then illustrate with some key examples of research, from paleobotany to the investigation of paintings. © 2019 Informa UK Limited