Factors Influencing Lesion Detection in SPECT Lung Images.

H C Gifford, X M Zheng, R Licho, P H Pretorius, P B Schneider, P H Simkin, M A King
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Abstract

An earlier localization ROC (LROC) study that found attenuation correction (AC) degraded the detection of solitary pulmonary nodules (SPN) in hybrid SPECT lung images had several potential shortcomings related to the simulation methods. We sought to address these issues with a revised LROC study. Clinical Tc-99m NeoTect scans acquired with a simultaneous transmission-emission protocol defined the normal cases in a single-slice LROC study. Abnormal cases contained a simulated 1-cm lung lesion. Four rescaled-block-iterative EM (RBI) reconstruction strategies applied: 1) AC, scatter correction (SC), and resolution compensation (RC); 2) AC only; 3) RC only; and 4) no corrections (NC). Images from these strategies underwent 3D Gaussian post-smoothing. Performances were defined by the average area under the LROC curve obtained from three human observers. The strategy ranking in order of decreasing performance was: 1) RBI with RC; 2) RBI with all corrections; 3) RBI with AC; and 4) RBI with no corrections. A multireader-multicase (MRMC) analysis only found significant patient and patient-strategy effects. The conflicting results concerning AC from this study and the previous one may revolve around lesion masking effects, which, by design, were not a factor in the current study.

影响 SPECT 肺部图像中病灶检测的因素
早先的一项定位 ROC(LROC)研究发现,衰减校正(AC)会降低混合 SPECT 肺部图像中单发肺结节(SPN)的检测效果,这项研究发现模拟方法可能存在一些缺陷。我们试图通过修订 LROC 研究来解决这些问题。临床 Tc-99m NeoTect 扫描采用同步透射-发射协议,在单片 LROC 研究中定义了正常病例。异常病例包含一个模拟的 1 厘米肺部病变。应用了四种重比例块迭代电磁(RBI)重建策略:1)AC、散射校正(SC)和分辨率补偿(RC);2)仅 AC;3)仅 RC;4)无校正(NC)。这些策略的图像都经过三维高斯后平滑处理。性能由三名人类观察者获得的 LROC 曲线下的平均面积来定义。按性能递减顺序排列的策略依次为:1)带 RC 的 RBI;2)带所有校正的 RBI;3)带 AC 的 RBI;4)不带校正的 RBI。多阅读器-多案例(MRMC)分析只发现了患者和患者策略的显著影响。本研究与前一项研究中关于 AC 的结果相互矛盾,这可能与病变掩蔽效应有关,而本研究的设计并不考虑病变掩蔽效应。
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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