Impact of Mismatched Detector-Blur Models on Ga SPECT Tumor Detection.

H C Gifford, M A King
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Abstract

The quality of SPECT images suffers from the effects of photon attenuation and scatter, and from distance-dependent collimator blur, and many researchers have shown the benefit of compensating for these degradations in the inverse problem. For this work, we examined how using an incorrect collimator-blur model affects the detection and localization of (67)Ga-avid lymphomas in simulated chest scans. In particular, we considered whether blur-overcompensation can enhance reconstructed images for purposes of localizing tumors. Variations in the correct linear model for medium-energy, parallel-hole collimators were compared by means of LROC studies with human and localizing model observers. Imaging data consisted of Simind projections of the MCAT phantom, and RBI reconstructions were performed. Our results indicate that tumor-detection performance is not improved by using a mismatched RC model. Reconstruction with increased RC requires more iterations, which leads to longer noise correlations. Our results also suggest a substantial observer insensitivity to the accuracy of the RC model.

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不匹配的探测器-模糊模型对 Ga SPECT 肿瘤检测的影响
SPECT 图像的质量受到光子衰减和散射以及与距离有关的准直器模糊的影响,许多研究人员已经证明了在逆问题中补偿这些衰减的好处。在这项工作中,我们研究了使用不正确的准直器模糊模型对模拟胸部扫描中 (67)Ga-avid 淋巴瘤的检测和定位有何影响。特别是,我们考虑了模糊过度补偿是否能增强重建图像以达到定位肿瘤的目的。通过对人类观察者和定位模型观察者进行 LROC 研究,比较了中等能量平行孔准直器正确线性模型的变化。成像数据由 MCAT 模体的 Simind 投影和 RBI 重建组成。我们的结果表明,使用不匹配的 RC 模型并不能提高肿瘤检测性能。增加 RC 的重建需要更多的迭代,从而导致更长的噪声相关性。我们的结果还表明,观察者对 RC 模型的准确性非常不敏感。
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