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深度学习重建超低剂量肺 CT:体模研究中人工磨玻璃结节的体积测量准确性和可重复性。

Deep-learning reconstruction for ultra-low-dose lung CT: Volumetric measurement accuracy and reproducibility of artificial ground-glass nodules in a phantom study.

机构信息

Division of Radiology, Department of Medical Technology, Kyushu University Hospital, Fukuoka, Japan.

Department of Health Sciences, Graduate School of Medical Sciences, Kyushu University, Fukuoka, Japan.

出版信息

Br J Radiol. 2022 Feb 1;95(1130):20210915. doi: 10.1259/bjr.20210915. Epub 2021 Dec 15.

DOI:10.1259/bjr.20210915
PMID:34908478
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8822562/
Abstract

OBJECTIVES

The lung nodule volume determined by CT is used for nodule diagnoses and monitoring tumor responses to therapy. Increased image noise on low-dose CT degrades the measurement accuracy of the lung nodule volume. We compared the volumetric accuracy among deep-learning reconstruction (DLR), model-based iterative reconstruction (MBIR), and hybrid iterative reconstruction (HIR) at an ultra-low-dose setting.

METHODS

Artificial ground-glass nodules (6 mm and 10 mm diameters, -660 HU) placed at the lung-apex and the middle-lung field in chest phantom were scanned by 320-row CT with the ultra-low-dose setting of 6.3 mAs. Each scan data set was reconstructed by DLR, MBIR, and HIR. The volumes of nodules were measured semi-automatically, and the absolute percent volumetric error (APEvol) was calculated. The APEvol provided by each reconstruction were compared by the Tukey-Kramer method. Inter- and intraobserver variabilities were evaluated by a Bland-Altman analysis with limits of agreements.

RESULTS

DLR provided a lower APEvol compared to MBIR and HIR. The APEvol of DLR (1.36%) was significantly lower than those of the HIR (8.01%, = 0.0022) and MBIR (7.30%, = 0.0053) on a 10-mm-diameter middle-lung nodule. DLR showed narrower limits of agreement compared to MBIR and HIR in the inter- and intraobserver agreement of the volumetric measurement.

CONCLUSIONS

DLR showed higher accuracy compared to MBIR and HIR for the volumetric measurement of artificial ground-glass nodules by ultra-low-dose CT.

ADVANCES IN KNOWLEDGE

DLR with ultra-low-dose setting allows a reduction of dose exposure, maintaining accuracy for the volumetry of lung nodule, especially in patients which deserve a long-term follow-up.

摘要

目的

CT 测定的肺结节体积用于结节诊断和监测肿瘤对治疗的反应。低剂量 CT 上的图像噪声增加会降低肺结节体积测量的准确性。我们比较了超低剂量设置下深度学习重建(DLR)、基于模型的迭代重建(MBIR)和混合迭代重建(HIR)的体积准确性。

方法

在胸部体模中,在肺尖和中肺野放置人工磨玻璃结节(直径 6mm 和 10mm,-660 HU),用 320 排 CT 进行超低剂量扫描,剂量为 6.3 mAs。每个扫描数据集均由 DLR、MBIR 和 HIR 重建。结节的体积由半自动测量,计算绝对体积百分比误差(APEvol)。用 Tukey-Kramer 法比较每种重建方法提供的 APEvol。通过 Bland-Altman 分析评估观察者内和观察者间的可变性,并给出协议限。

结果

与 MBIR 和 HIR 相比,DLR 提供的 APEvol 更低。10mm 直径中肺结节的 DLR(1.36%)APEvol 明显低于 HIR(8.01%, = 0.0022)和 MBIR(7.30%, = 0.0053)。与 MBIR 和 HIR 相比,DLR 在体积测量的观察者内和观察者间一致性的协议限更窄。

结论

与 MBIR 和 HIR 相比,超低剂量 CT 下的 DLR 对人工磨玻璃结节的体积测量具有更高的准确性。

知识进展

超低剂量设置下的 DLR 可以减少剂量暴露,同时保持对肺结节体积测量的准确性,特别是对于需要长期随访的患者。

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