Medical Image Optimisation and Perception Group (MIOPeG), Sydney School of Health Sciences, Faculty of Medicine and Health, The University of Sydney, Sydney, New South Wales, Australia.
J Med Radiat Sci. 2022 Mar;69(1):37-46. doi: 10.1002/jmrs.536. Epub 2021 Aug 12.
Phase-contrast imaging (PCI) is a novel technology that can visualise variations in X-ray refraction (phase contrast) in addition to differences in X-ray attenuation (absorption contrast). Compared to radiography using conventional methods (i.e. absorption-based imaging), PCI techniques can potentially produce images with higher contrast-to-noise ratio and superior spatial resolution at the same or lower radiation doses. This has led PCI to be explored for implementation in medical imaging. While interest in this research field is increasing, the whole body of PCI research in medical imaging has been under-investigated. This paper provides an overview of PCI literature and then focusses on evaluating its development within the scope of medical imaging.
Bibliographic data between 1995 and 2018 were used to visualise collaboration networks between countries, institutions and authors. Social network analysis techniques were implemented to measure these networks in terms of centrality and cohesion. These techniques also assisted in the exploration of underlying research paradigms of clinical X-ray PCI investigations.
Forty-one countries, 592 institutions and 2073 authors contributed 796 investigations towards clinical PCI research. The most influential contributors and network collaboration characteristics were identified. Italy was the most influential country, with the European Synchrotron Radiation Facility being the most influential institution. At an author level, F. Pfeiffer was found to be the most influential researcher. Among various PCI techniques, grating interferometry was the most investigated, while computed tomography was the most frequently examined modality.
By gaining an understanding of collaborations and trends within clinical X-ray PCI research, the links between existing collaborators were identified, which can aid future collaborations between emerging and established collaborators. Moreover, exploring the paradigm of past investigations can shape future research - well-researched PCI techniques may be studied to bring X-ray PCI closer to clinical implementation, or the potential of seldom-investigated techniques may be explored.
相衬成像(PCI)是一种新技术,除了 X 射线衰减(吸收对比)的差异外,还可以观察到 X 射线折射(相位对比)的变化。与使用传统方法(即基于吸收的成像)的射线照相相比,PCI 技术在相同或更低辐射剂量下,具有更高的对比度噪声比和更高的空间分辨率的潜在优势。这使得 PCI 技术在医学成像中得到了探索。虽然对这一研究领域的兴趣正在增加,但整个医学成像 PCI 研究领域的研究还不够充分。本文概述了 PCI 文献,然后重点评估了其在医学成像范围内的发展情况。
使用 1995 年至 2018 年的文献数据,可视化国家、机构和作者之间的合作网络。采用社会网络分析技术,从中心性和凝聚性方面衡量这些网络。这些技术还协助探索临床 X 射线 PCI 研究的潜在研究范式。
41 个国家、592 个机构和 2073 名作者共发表了 796 项关于临床 PCI 研究的研究。确定了最有影响力的贡献者和网络合作特征。意大利是最有影响力的国家,欧洲同步辐射设施是最有影响力的机构。在作者层面上,F. Pfeiffer 被认为是最有影响力的研究人员。在各种 PCI 技术中,光栅干涉法是研究最多的,而计算机断层扫描是最常研究的模式。
通过了解临床 X 射线 PCI 研究中的合作和趋势,可以识别现有合作者之间的联系,从而促进新兴和成熟合作者之间的未来合作。此外,探索过去研究的范例可以塑造未来的研究——研究成熟的 PCI 技术可以使 X 射线 PCI 更接近临床应用,或者可以探索研究较少的技术的潜力。
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