Bismuth Sulfide Nanoparticles as a Complement to Traditional Iodinated Contrast Agents at Various X-Ray Computed Tomography Tube Potentials

M. Algethami, A. Blencowe, B. Feltis, M. Geso
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引用次数: 12

Abstract

Background: Investigation of the contrast enhancement effects on the CT images of the conventional iodinated contrast media (CM) or bismuth sulfide nanoparticles (Bi2S3 NPs) with increasing x-ray tube potentials. Materials and methods: A phantom was filled with iodinated CM or Bi2S3 NP solutions at concentrations ranging from 0 to 65 mM and the phantom was scanned with a CT scanner using tube potentials of 80, 100, 120 and 140 kVp at a fixed current of 200 mA. The CT contrast enhancement and contrast-to-noise ratios (CNR) of all scanned images were calculated. Results: This study demonstrated that greater image contrast was observed with Bi2S3 NPs compared to the iodinated CM at all concentrations and energies (80-140 kVp) tested. For example, at a concentration of 65 mM and tube potential of 140 kVp, a CNR enhancement of three to four times was observed for Bi2S3 NPs compared to iodinated CM. Even at a conventional tube potential of 80 KVp, one to two-fold increase in CNR was noted for Bi2S3 NPs. Results are also demonstrated that CNR increased with increasing concentration of Bi2S3 NPs at a fixed tube potential. Conclusion: These results highlight the effects of the different physical densities and atomic numbers of the two elements (I versus Bi), and their role in enhancing the probability of Compton scattering (CS) and photoelectric effects (PEs). As tube potential was increased, the CT numbers for both Bi2S3 NPs and iodinated CM decreased, consistent with a decrease in the probability of CS and PEs with increasing beam energy. However, the rate of decrease for iodinated CM was larger than Bi2S3 NPs. A good correlation was observed between the experimental results and the theoretical spectra based on linear attenuation coefficients .
硫化铋纳米颗粒作为传统碘化造影剂在各种x射线计算机断层扫描管电位的补充
背景:研究常规碘化造影剂(CM)或硫化铋纳米颗粒(Bi2S3 NPs)在x射线管电位升高时对CT图像的增强效果。材料和方法:用浓度为0 ~ 65 mM的碘化CM或Bi2S3 NP溶液填充模体,在200 mA的固定电流下,使用80、100、120和140 kVp的管电位用CT扫描仪扫描模体。计算所有扫描图像的CT对比度增强和噪比(CNR)。结果:本研究表明,在所有浓度和能量(80-140 kVp)的测试中,Bi2S3 NPs与碘化CM相比,具有更高的图像对比度。例如,在65 mM的浓度和140 kVp的管电位下,与碘化CM相比,Bi2S3 NPs的CNR增强了3到4倍。即使在80 KVp的常规管电位下,Bi2S3 NPs的CNR也增加了一到两倍。结果还表明,在固定管电位下,CNR随Bi2S3 NPs浓度的增加而增加。结论:这些结果突出了两种元素(I和Bi)的不同物理密度和原子序数的影响,以及它们对提高康普顿散射(CS)和光电效应(PEs)概率的作用。随着管电位的增加,Bi2S3 NPs和碘化CM的CT数都减少,这与随着束流能量的增加,CS和pe的概率降低是一致的。然而,碘化CM的下降速率大于Bi2S3 NPs。实验结果与基于线性衰减系数的理论光谱具有良好的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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