CT 数的定量准确性:理论分析和实验研究。
Quantitative accuracy of CT numbers: Theoretical analyses and experimental studies.
机构信息
Department of Medical Physics, University of Wisconsin School of Medicine and Public Health, 1111 Highland Avenue, Madison, WI, 53705, USA.
Department of Radiology, University of Wisconsin School of Medicine and Public Health, 600 Highland Avenue, Madison, WI, 53792, USA.
出版信息
Med Phys. 2018 Oct;45(10):4519-4528. doi: 10.1002/mp.13119. Epub 2018 Aug 31.
PURPOSE
The CT number accuracy, that is, CT number bias, plays an important role in clinical diagnosis. When strategies to reduce radiation dose are discussed, it is important to make sure that the CT number bias is controlled within an acceptable range. The purpose of this paper was to investigate the dependence of CT number bias on radiation dose level and on image contrast (i.e., the difference in CT number between the ROI and the background) in Computed Tomography (CT).
METHODS
A lesion-background model was introduced to theoretically study how the CT number bias changes with radiation exposure level and with CT number contrast when a simple linear reconstruction algorithm such as filtered backprojection (FBP) is used. The theoretical results were validated with experimental studies using a benchtop CT system equipped with a photon-counting detector (XC-HYDRA FX50, XCounter AB, Sweden) and a clinical diagnostic MDCT scanner (Discovery CT750 HD, GE Healthcare, Waukesha, WI, USA) equipped with an energy-integrating detector. The Catphan phantom (Catphan 600, the Phantom Laboratory, Salem, NY, USA) was scanned at different mAs levels and 50 scans were performed for each mAs. The bias of CT number was evaluated for each combination of mAs and ROIs with different contrast levels. An anthropomorphic phantom (ATOM 10-year-old phantom, Model 706, CIRS Inc. Norfolk, VA, USA) with much more heterogeneous object content was used to test the applicability of the theory to the more general image object cases.
RESULTS
Both theoretical and experimental studies showed that the CT number bias is inversely proportional to the radiation exposure level yet linearly dependent on the CT number contrast between the lesion and the background, that is, .
CONCLUSIONS
The quantitative accuracy of CT numbers can be problematic and thus needs some extra attention when radiation dose is reduced. In this work, we showed that the bias of the FBP reconstruction increases as mAs is reduced; both positive and negative bias can be observed depending on the contrast difference between a targeted ROI and its surrounding background tissues.
目的
CT 数准确性(即 CT 数偏差)在临床诊断中起着重要作用。当讨论降低辐射剂量的策略时,确保 CT 数偏差控制在可接受的范围内非常重要。本文旨在研究 CT 中 CT 数偏差与辐射剂量水平和图像对比度(即 ROI 与背景之间的 CT 数差异)的关系。
方法
引入病变-背景模型,理论研究在使用滤波反投影(FBP)等简单线性重建算法时,CT 数偏差随辐射暴露水平和 CT 数对比度的变化情况。使用配备光子计数探测器(XC-HYDRA FX50,XCounter AB,瑞典)的台式 CT 系统和配备能量积分探测器的临床诊断 MDCT 扫描仪(Discovery CT750 HD,GE Healthcare,Waukesha,WI,USA)进行实验研究,验证了理论结果。使用 Catphan 体模(Catphan 600,Phantom Laboratory,Salem,NY,USA)在不同 mAs 水平下进行扫描,每个 mAs 进行 50 次扫描。评估了每个 mAs 和具有不同对比度水平的 ROI 的组合的 CT 数偏差。使用具有更多异质物体内容的人体模型(ATOM 10 岁人体模型,Model 706,CIRS Inc.,Norfolk,VA,USA)测试理论对更一般的图像物体情况的适用性。
结果
理论和实验研究均表明,CT 数偏差与辐射暴露水平成反比,但与病变与背景之间的 CT 数对比度成正比,即 。
结论
当降低辐射剂量时,CT 数的定量准确性可能会出现问题,因此需要特别注意。在这项工作中,我们表明 FBP 重建的偏差随着 mAs 的降低而增加;根据目标 ROI 与其周围背景组织之间的对比度差异,可能会观察到正偏差和负偏差。
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