使用双能 CT 进行铁定量的下限 - 一项体模研究。

Lower limit of iron quantification using dual-energy CT - a phantom study.

机构信息

Department of Radiology, Ohio State University College of Medicine, Columbus, OH, USA.

出版信息

J Appl Clin Med Phys. 2021 Jan;22(1):299-307. doi: 10.1002/acm2.13124. Epub 2020 Dec 23.

DOI:10.1002/acm2.13124

PMID:33369002

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7856509/

Abstract

PURPOSE

Dual-energy computed tomography (DECT) has been proposed for quantification of hepatic iron concentration (IC). However, the lower limit of quantification (LLOQ) has not been established, limiting the clinical adoption of this technology. In this study, we aim to (a) establish the LLOQ using phantoms and (b) investigate the effects of patient size, dose level, energy combination, and reconstruction method.

METHODS

Three phantom sizes and eight vials of ferric nitrate solution with IC ranging from 0 to 10 mg/ml were used. DECT scans were performed at 80/140 and 100/140Sn kVp, and using five different levels of CT dose index (CTDI). An image-domain three-material-decomposition algorithm was used to calculate the IC. The LLOQ was determined based on the coefficient of variation from repeated measurements.

RESULTS

The measured IC correlated strongly with the true IC in the small and medium phantoms (R of linear regression > 0.99) and moderately in the large phantom (0.8 < R <0.9). The LLOQ improved with increased CTDI. At 30 mGy, the LLOQ was found to be 0.50/1.73/6.25 mg/ml in the small/medium/large phantoms, respectively. 80/140Sn kVp resulted in superior LLOQ for all phantom sizes compared to 100/140Sn kVp, primarily due to the difference in their iron enhancement ratios (1.94 and 1.55, respectively). Iterative reconstruction was found to further improve the LLOQ (by ~ 11%), whereas reconstruction kernel smoothness had negligible effect. The LLOQ of iron was significantly higher than that of iodine due to its lack of a useful k-edge and lower enhancement ratio.

CONCLUSION

Iron quantification at clinically important levels was achieved in a small- and a medium-sized phantom using DECT, but proved challenging in a large phantom. Wide spectral separation and accurate calibration were found to be critical to the success of the technology.

摘要

目的

双能 CT（DECT）已被提议用于定量肝铁浓度（IC）。然而，尚未确定定量下限（LLOQ），限制了该技术的临床应用。本研究旨在：（a）使用体模建立 LLOQ；（b）研究患者体型、剂量水平、能谱组合和重建方法的影响。

方法

使用三个大小的体模和八个硝酸铁溶液瓶，浓度范围为 0 至 10mg/ml，进行 DECT 扫描，管电压分别为 80/140 和 100/140SnkVp，使用五个不同水平的 CT 剂量指数（CTDI）。使用基于图像域的三物质分解算法来计算 IC。LLOQ 基于重复测量的变异系数来确定。

结果

在小中和大体模中，测量的 IC 与真实 IC 高度相关（线性回归的 R 值>0.99），在大体模中中度相关（0.8<R<0.9）。随着 CTDI 的增加，LLOQ 得到改善。在 30mGy 时，在小/中/大体模中，LLOQ 分别为 0.50/1.73/6.25mg/ml。与 100/140SnkVp 相比，80/140SnkVp 对所有体模尺寸的 LLOQ 都有更好的结果，这主要是由于它们的铁增强比（分别为 1.94 和 1.55）不同。迭代重建被发现进一步提高了 LLOQ（约 11%），而重建核平滑度几乎没有影响。由于缺乏有用的 K 边和较低的增强比，铁的 LLOQ 明显高于碘的 LLOQ。

结论

在小和中体模中使用 DECT 实现了临床重要水平的铁定量，但在大体模中证明具有挑战性。宽谱分离和准确校准被发现对该技术的成功至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f287/7856509/8077d7125576/ACM2-22-299-g001.jpg

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使用双能 CT 进行铁定量的下限 - 一项体模研究。

Lower limit of iron quantification using dual-energy CT - a phantom study.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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