利用计算机工具标记数字x线片肺结节的观察者间变化。

Wei Song, Ying Xu, Yong-Ming Xie, Li Fan, Jian-Zhong Qian, Zheng-Yu Jin
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引用次数: 0

摘要

目的:评估肺结节计算机工具包在常规临床胸部数字x线(DR)软拷贝阅读中肺结节标记的观察者间差异。方法:在北京协和医院门诊常规筛查中随机抽取601张胸部后正位DR图像。首先要求两名具有十年以上经验的胸部放射科医生阅读图像,并使用计算机工具包IQQA-Chest独立标记所有可疑结节,并指出所检测到的每个结节的可能性。他们还被要求在扩大的感兴趣区域上手动绘制已识别结节的边界,并立即由IQQA-Chest进行分析。计算机系统自动生成并存储两组诊断报告,包括标记结节、可能性、人工绘制边界、定量测量和放射科医生姓名。一周后,两位放射科医生在不参考之前的阅读结果的情况下,使用相同的计算机工具包一起阅读相同的图像。除对每个可疑区域达成共识外,标记程序相同。使用IQQA-Chest提供的统计分析工具对三组读数结果进行比较。结果:在独立读数中,Reader 1在241例患者中检测到409个结节,平均直径12.4 mm; Reader 2在253例患者中检测到401个结节,平均直径12.6 mm。在共识读数中,220例患者共检测到352个结节,平均直径为12.4 mm。共有42.3%的读者1和45.1%的读者2的分数被共识阅读所证实。大约40%的读者的评分与对方一致。在904个独特结节中,只有130个(14.4%)被读者和共识阅读确认。此外,5.6%(51/904)的标记区域在所有三种读数中被评为相同的可能性。统计分析显示,在确定标记的可能性方面,读者1与读者2、共识与读者2之间存在显著差异(P < 0.01),但共识与读者1之间无显著差异。在三个读数中的任何两个之间,在结节分割方面没有观察到显着差异。结论:在专家之间以及单人阅读和共识阅读之间,在结节标记和结节可能性确定方面存在较大差异,但在结节大小方面没有差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inter-observer variations of digital radiograph pulmonary nodule marking by using computer toolkit.

Objective: To assess inter-observer variations of pulmonary nodule marking in routine clinical chest digital radiograph (DR) softcopy reading by using a lung nodule computer toolkit.

Methods: A total of 601 chest posterior-anterior DR images were randomly selected from routine outpatient screening in Peking Union Medical College Hospital. Two chest radiologists with experience more than ten years were first asked to read the images and mark all suspicious nodules independently by using computer toolkit IQQA-Chest, and to indicate the likelihood for each nodule detected. They were also asked to draw the boundary of the identified nodule manually on an enlarged region of interest, which was instantly analyzed by IQQA-Chest. Two sets of diagnostic reports, including the marked nodules, likelihood, manually drawn boundaries, quantitative measurements, and radiologists' names, were automatically generated and stored by the computer system. One week later, the two radiologists read the same images together by using the same computer toolkit without referring to their previous reading results. Marking procedure was the same except that consensus was reached for each suspicious region. Statistical analysis tools provided in the IQQA-Chest were used to compare all the three sets of reading results.

Results: In the independent readings, Reader 1 detected 409 nodules with a mean diameter of 12.4 mm in 241 patients, and Reader 2 detected 401 nodules with a mean diameter of 12.6 mm in 253 patients. In the consensus reading, a total of 352 nodules with a mean diameter of 12.4 mm were detected in 220 patients. Totally, 42.3% of Reader 1's and 45.1% of Reader 2's marks were confirmed by the consensus reading. About 40% of each reader's marks agreed with the other. There were only 130 (14.4%) out of the total 904 unique nodules were confirmed by both readers and the consensus reading. Moreover, 5.6% (51/904) of the marked regions were rated identical likelihood in all three readings. Statistical analysis showed significant differences between Readers 1 and 2, and between consensus and Reader 2 in determining the likelihood of the marks (P < 0.01), but not between consensus and Reader 1. No significant difference in terms of size was observed in nodule segmentation between either two of the three readings.

Conclusion: Large variations in nodule marking and nodule-likelihood determination but not in nodule size were observed between experts as well as between single-person reading and consensus reading.

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