A strategy for achieving optimisation of radiological protection in digital radiology proposed by ICRP.

IF 1.4 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Colin J Martin, Mika K Kortesniemi, David G Sutton, Kimberly Applegate, Jenia Vassileva
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Abstract

Radiology is now predominantly a digital medium and this has extended the flexibility, efficiency and application of medical imaging. Achieving the full benefit of digital radiology requires images to be of sufficient quality to make a reliable diagnosis for each patient, while minimising risks from radiation exposure, and so involves a careful balance between competing objectives. When an optimisation programme is undertaken, a knowledge of patient doses from surveys can be valuable in identifying areas needing attention. However, any dose reduction measures must not degrade image quality to the extent that it is inadequate for the clinical purpose. The move to digital imaging has enabled versatile image acquisition and presentation, including multi-modality display and quantitative assessment, with post-processing options that adjust for optimal viewing. This means that the appearance of an image is unlikely to give any indication when the dose is higher than necessary. Moreover, options to improve performance of imaging equipment add to its complexity, so operators require extensive training to be able to achieve this. Optimisation is a continuous rather than single stage process that requires regular monitoring, review, and analysis of performance feeding into improvement and development of imaging protocols. The ICRP is in the process of publishing two reports about optimisation in digital radiology. The first report sets out components needed to ensure that a radiology service can carry optimisation through. It describes how imaging professionals should work together as a team and explains the benefits of having appropriate methodologies to monitor performance, together with the knowledge and expertise required to use them effectively. It emphasises the need for development of organisational processes that ensure tasks are carried out. The second ICRP report deals with practical requirements for optimisation of different digital radiology modalities, and builds on information provided in earlier modality specific ICRP publications.

国际放射防护委员会提出的优化数字放射防护的战略。
放射学现在主要是一种数字媒体,这扩大了医学成像的灵活性、效率和应用。要充分发挥数字放射学的优势,就必须保证图像的质量,以便为每位患者做出可靠的诊断,同时最大限度地降低辐射风险,这就需要在相互竞争的目标之间取得谨慎的平衡。在实施优化计划时,通过调查了解病人的剂量对确定需要注意的领域非常有价值。然而,任何降低剂量的措施都不能降低图像质量,以免无法满足临床目的。随着数字成像技术的发展,图像采集和呈现方式也变得多样化,包括多模态显示和定量评估,以及可调整以达到最佳浏览效果的后处理选项。这意味着,当剂量超过必要时,图像的外观不太可能给出任何提示。此外,改善成像设备性能的选项也增加了设备的复杂性,因此操作人员需要接受大量培训才能做到这一点。优化是一个持续而非单一阶段的过程,需要对性能进行定期监测、审查和分析,以改进和制定成像方案。ICRP 正在出版两份关于数字放射学优化的报告。第一份报告列出了确保放射服务实现优化所需的要素。报告描述了影像专业人员应如何作为一个团队共同工作,并解释了采用适当方法监测绩效的好处,以及有效使用这些方法所需的知识和专业技能。报告强调需要制定组织流程,以确保各项任务得到执行。国际放射防护委员会的第二份报告论述了优化不同数字放射模式的实际要求,并借鉴了国际放射防护委员会早期针对具体模式的出版物中提供的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Radiological Protection
Journal of Radiological Protection 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
2.60
自引率
26.70%
发文量
137
审稿时长
18-36 weeks
期刊介绍: Journal of Radiological Protection publishes articles on all aspects of radiological protection, including non-ionising as well as ionising radiations. Fields of interest range from research, development and theory to operational matters, education and training. The very wide spectrum of its topics includes: dosimetry, instrument development, specialized measuring techniques, epidemiology, biological effects (in vivo and in vitro) and risk and environmental impact assessments. The journal encourages publication of data and code as well as results.
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