Chakraborty D P
Department of Radiology, University of Pittsburgh, Pittsburgh, PA, USA.
Radiat Prot Dosimetry. 2010 Apr-May;139(1-3):20-5. doi: 10.1093/rpd/ncp305. Epub 2010 Jan 18.
The purpose of this paper is to summarise recent progress in free-response receiver operating characteristic (FROC) methodology. These are: (1) jackknife alternative FROC analysis including recent extensions and alternative methods; (2) the search-model simulator that enables validation and objective comparison of different methods of analysing the data; (3) case-based analysis that has the potential of greater clinical relevance than conventional free-response analysis; (4) a method for collectively analysing the multiple lesion types in an image (e.g. microcalcifications, masses and architectural distortions); (5) a method for sample-size estimation for FROC studies; and (6) a method for determining an objective proximity criterion, namely how close must a mark be to a true lesion in order to credit the observer for a true localisation. FROC analysis is being increasingly used to evaluate the imaging systems and understanding of recent progress should help researchers conduct better FROC studies.
本文旨在总结自由响应式接收器操作特性(FROC)方法的近期进展。这些进展包括:(1)留一法替代FROC分析,包括近期的扩展和替代方法;(2)搜索模型模拟器,可用于验证和客观比较不同的数据分析法;(3)基于病例的分析,其临床相关性可能高于传统的自由响应分析;(4)一种用于集中分析图像中多种病变类型(如微钙化、肿块和结构扭曲)的方法;(5)一种用于FROC研究样本量估计的方法;以及(6)一种用于确定客观接近度标准的方法,即标记与真实病变的距离必须多近才能认定观察者的定位为真实定位。FROC分析正越来越多地用于评估成像系统,了解近期进展应有助于研究人员开展更好的FROC研究。