最小可察觉尺寸差异:放射科医生通过 CT 图像肉眼检测肺结节大小变化的能力如何?
Minimum perceivable size difference: how well can radiologists visually detect a change in lung nodule size from CT images?
机构信息
Carl E. Ravin Advanced Imaging Laboratories, Department of Radiology, Duke University Medical Center, Durham, NC, USA.
Department of Diagnostic, Interventional and Pediatric Radiology, Inselspital, Bern University Hospital, University of Bern, Bern, Switzerland.
出版信息
Eur Radiol. 2021 Apr;31(4):1947-1955. doi: 10.1007/s00330-020-07326-2. Epub 2020 Sep 30.
OBJECTIVE
The purpose of this study was to determine how well radiologists could visually detect a change in lung nodule size on the basis of visual image perception alone.
SUBJECTS AND METHODS
Under IRB approval, 109 standard chest CT image series were anonymized and exported from PACS. Nine hundred forty virtual lung nodule pairs (six baseline diameters, six relative volume differences, two nodule types-solid and ground glass-and 14 repeats) were digitally inserted into the chest CT image series (same location, different sizes between the pair). These digitally altered CT image pairs were shown to nine radiologists who were tasked to visually determine which image contained the larger nodule using a two-alternative forced-choice perception experimental design. These data were statistically analyzed using a generalized linear mixed effects model to determine how accurately the radiologists were able to correctly identify the larger nodule.
RESULTS
Nominal baseline nodule diameter, relative volume difference, and nodule type were found to be statistically significant factors (p < 0.001) in influencing the radiologists' accuracy. For solid (ground-glass) nodules, the baseline diameter needed to be at least 6.3 mm (13.2 mm) to be able to visually detect a 25% change in volume with 95 ± 1.4% accuracy. Accuracy was lowest for the nodules with the smallest baseline diameters and smallest relative volume differences. Additionally, accuracy was lower for ground-glass nodules compared to solid nodules.
CONCLUSIONS
Factors that impacted visual size assessment were baseline nodule diameter, relative volume difference, and solid versus non-solid nodule type, with larger and more solid lesions offering a more precise assessment of change.
KEY POINTS
• For solid nodules, radiologists could visually detect a 25% change in volume with 95% accuracy for nodules having greater than 6.3-mm baseline diameter. • For ground-glass nodules, radiologists could visually detect a 25% change in volume with 95% accuracy for nodules having greater than 13.2-mm baseline diameter. • Accuracy in detecting a change in nodule size began to stabilize around 90-100% for nodules with larger baseline diameters (> 8 mm for solid nodules, > 12 mm for ground-glass nodules) and larger relative volume differences (>15% for solid nodules, > 25% for ground-glass nodules).
目的
本研究旨在确定放射科医生仅通过视觉图像感知来检测肺结节大小变化的能力。
材料和方法
在机构审查委员会批准下,将 109 例标准胸部 CT 图像系列从 PACS 中匿名并导出。900 对虚拟肺结节(六个基线直径、六个相对体积差异、两种结节类型-实性和磨玻璃性-和 14 次重复)被数字插入到胸部 CT 图像系列中(同一位置,结节对之间的大小不同)。将这些数字改变的 CT 图像对展示给 9 名放射科医生,他们的任务是使用二选一强制选择感知实验设计来视觉判断哪张图像包含更大的结节。使用广义线性混合效应模型对这些数据进行了统计学分析,以确定放射科医生正确识别较大结节的准确性。
结果
名义上的基线结节直径、相对体积差异和结节类型被发现是影响放射科医生准确性的统计学显著因素(p < 0.001)。对于实性(磨玻璃性)结节,需要至少 6.3mm(13.2mm)的基线直径才能以 95 ± 1.4%的准确度视觉检测到 25%的体积变化。基线直径最小和相对体积差异最小的结节准确性最低。此外,与实性结节相比,磨玻璃性结节的准确性较低。
结论
影响视觉尺寸评估的因素是基线结节直径、相对体积差异以及实性与非实性结节类型,较大且更实性的病变提供了更精确的变化评估。
重点
对于实性结节,放射科医生可以以 95%的准确度视觉检测到大于 6.3mm 基线直径的结节体积增加 25%。对于磨玻璃性结节,放射科医生可以以 95%的准确度视觉检测到大于 13.2mm 基线直径的结节体积增加 25%。对于基线直径较大(实性结节>8mm,磨玻璃结节>12mm)和相对体积差异较大(实性结节>15%,磨玻璃结节>25%)的结节,检测结节大小变化的准确性开始稳定在 90-100%左右。
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