临床剂量水平下基于光子计数的计算机断层扫描人体成像:对比噪声比及尸体研究
Human Imaging With Photon Counting-Based Computed Tomography at Clinical Dose Levels: Contrast-to-Noise Ratio and Cadaver Studies.
作者信息
Gutjahr Ralf, Halaweish Ahmed F, Yu Zhicong, Leng Shuai, Yu Lifeng, Li Zhoubo, Jorgensen Steven M, Ritman Erik L, Kappler Steffen, McCollough Cynthia H
机构信息
From the *CAMP, Technical University of Munich, Munich, Germany; †Siemens Healthcare-Imaging and Therapy Systems, Malvern, PA; Departments of ‡Radiology, and §Physiology and Biomedical Engineering, Mayo Clinic, Rochester, MN; and ∥Siemens Healthcare, Forchheim, Germany.
出版信息
Invest Radiol. 2016 Jul;51(7):421-9. doi: 10.1097/RLI.0000000000000251.
OBJECTIVES
The purpose of this work was to measure and compare the iodine contrast-to-noise ratio (CNR) between a commercial energy-integrating detector (EID) computed tomography (CT) system and a photon-counting detector (PCD) CT scanner capable of human imaging at clinical dose rates, as well as to determine clinical feasibility using human cadavers.
MATERIALS AND METHODS
A research dual-source PCD-CT scanner was used, where the "A" tube/detector subsystem used an EID and the "B" tube/detector subsystem used a PCD. Iodine CNR was measured in 4 anthropomorphic phantoms, simulating 4 patient sizes, at 4 tube potential settings. After biospecimen committee approval, PCD scans were performed on a fresh-frozen human head and a whole-body cadaver using clinical dose rates. Scans were repeated using the EID and identical parameters, and qualitative side-by-side comparisons were performed.
RESULTS
For the same photon fluence, phantom measurements demonstrated a mean increase in CNR of 11%, 23%, 31%, 38% for the PCD system, relative to the EID system, at 80, 100, 120, and 140 kV, respectively. Photon-counting detector CT additionally provided energy-selective imaging, where low- and high-energy images reflected the energy dependence of the iodine signal. Photon-counting detector images of cadaveric anatomy demonstrated decreased beam hardening and calcium blooming in the high-energy bin images and increased contrast in the low-energy bins images relative to the EID images. Threshold-based PCD images were qualitatively deemed equivalent in other aspects.
CONCLUSIONS
The evaluated research PCD-CT system was capable of clinical levels of image quality at clinical dose rates. It further provided improved CNR relative to state-of-the-art EID-CT. The energy-selective bin images provide further opportunity for dual-energy and multienergy analyses.
目的
本研究旨在测量并比较一款商用能量积分探测器(EID)计算机断层扫描(CT)系统与一款能够在临床剂量率下进行人体成像的光子计数探测器(PCD)CT扫描仪之间的碘对比噪声比(CNR),并利用人体尸体确定其临床可行性。
材料与方法
使用一台研究型双源PCD-CT扫描仪,其中“A”管/探测器子系统使用EID,“B”管/探测器子系统使用PCD。在4种管电压设置下,对4个模拟4种患者体型的人体模型测量碘CNR。经生物样本委员会批准后,使用临床剂量率对一个新鲜冷冻的人体头部和一具全身尸体进行PCD扫描。使用EID并采用相同参数重复扫描,并进行定性的并排比较。
结果
对于相同的光子注量,模型测量显示,在80、100、120和140 kV时,PCD系统的CNR相对于EID系统平均分别增加了11%、23%、31%、38%。光子计数探测器CT还提供能量选择性成像,其中低能和高能图像反映了碘信号的能量依赖性。与EID图像相比,尸体解剖结构的光子计数探测器图像在高能区图像中显示出束硬化和钙闪烁减少,在低能区图像中显示出对比度增加。基于阈值的PCD图像在其他方面定性认为是等效的。
结论
所评估的研究型PCD-CT系统在临床剂量率下能够达到临床图像质量水平。相对于最先进的EID-CT,它进一步提高了CNR。能量选择性区图像为双能量和多能量分析提供了更多机会。
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