Location-known-exactly human-observer ROC studies of attenuation and other corrections for SPECT lung imaging.

Andre Lehovich, Howard C Gifford, Michael A King
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引用次数: 1

Abstract

We use receiver operating characteristic (ROC) analysis of a location-known-exactly (LKE) lesion detection task to compare the image quality of SPECT reconstruction with and without various combinations of attenuation correction (AC), scatter correction (SC) and resolution compensation (RC). Hybrid images were generated from Tc-99m labelled NeoTect clinical backgrounds into which Monte Carlo simulated solitary pulmonary nodule (SPN) lung lesions were added, then reconstructed using several strategies. Results from a human-observer study show that attenuation correction degrades SPN detection, while resolution correction improves SPN detection, even when the lesion location is known. This agrees with the results of a previous localization-response operating characteristic (LROC) study using the same images, indicating that location uncertainty is not the sole source of the changes in detection accuracy.

位置已知的人类观察者的衰减和其他校正SPECT肺成像的ROC研究。
我们使用精确位置已知(LKE)病变检测任务的接收者工作特征(ROC)分析来比较不同衰减校正(AC)、散射校正(SC)和分辨率补偿(RC)组合的SPECT重建图像质量。在Tc-99m标记的neoect临床背景中生成混合图像,其中加入蒙特卡罗模拟孤立性肺结节(SPN)肺病变,然后采用几种策略重建。人类观察者的研究结果表明,衰减校正降低了SPN检测,而分辨率校正提高了SPN检测,即使病变位置已知。这与先前使用相同图像的定位响应操作特性(LROC)研究的结果一致,表明位置不确定性不是检测精度变化的唯一来源。
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