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采用不同管电压和电流设置进行 CT 血管造影术对脑动脉瘤的剂量降低和图像质量的影响。

Dose reduction and image quality in CT angiography for cerebral aneurysm with various tube potentials and current settings.

机构信息

Department of Radiological Technology, Nagoya University School of Health Sciences, Nagoya, Japan.

出版信息

Br J Radiol. 2012 Sep;85(1017):e673-81. doi: 10.1259/bjr/63268088. Epub 2012 Jan 17.

DOI:10.1259/bjr/63268088
PMID:22253346
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3487084/
Abstract

OBJECTIVES

The purpose of this study is to investigate the image quality on both axial and three-dimensional CT angiograms of the brain at various tube potentials and currents, and to propose the use of descriptors for evaluating the image quality of three-dimensional CT angiograms using entropy analysis.

METHODS

A head phantom was used as a target object. Axial CT and three-dimensional CT angiograms were obtained at various effective milliampere-second values (49-350 mAs) and tube potentials (80-140 kVp) with a 64-row detector CT scanner. Lens doses were measured using a planar silicon pin-photodiode system. The signal-to-noise ratio (SNR) and streak artefacts on the axial CT angiograms were evaluated and the image quality of the three-dimensional CT angiograms was assessed using entropy analysis.

RESULTS

Lens doses increased with tube potential and effective milliampere-seconds. From the evaluation of SNR and streak artefacts on axial CT angiograms, we found that the image quality was improved by setting the tube potential at 100 kVp. However, there was little visual difference in the image quality for 100 kVp between 252 (effective value recommended by the manufacturer) and 350 mAs (maximum effective value). In the entropy analysis of the image quality of three-dimensional CT angiograms, the mutual information (information gain) per lens dose was largest at 80 kVp and 252 mAs.

CONCLUSION

Our results suggested that the suitable tube potentials for axial CT and three-dimensional CT angiograms were 100 and 80 kVp, respectively, and the effective milliampere-second value recommended by the manufacturer was appropriate.

摘要

目的

本研究旨在探讨在不同管电压和管电流下脑轴位和三维 CT 血管造影的图像质量,并提出使用熵分析来评估三维 CT 血管造影图像质量的描述符。

方法

使用头部体模作为目标物体。使用 64 排探测器 CT 扫描仪在不同的有效毫安秒值(49-350mAs)和管电压(80-140kVp)下获取轴位 CT 和三维 CT 血管造影。使用平面硅针光电二极管系统测量透镜剂量。评估轴位 CT 血管造影上的信噪比(SNR)和条纹伪影,并使用熵分析评估三维 CT 血管造影的图像质量。

结果

透镜剂量随管电压和有效毫安秒的增加而增加。从轴位 CT 血管造影上 SNR 和条纹伪影的评估结果发现,将管电压设置为 100kVp 可以提高图像质量。但是,在 100kVp 下,252mAs(制造商推荐的有效值)和 350mAs(最大有效值)之间的图像质量几乎没有视觉差异。在三维 CT 血管造影图像质量的熵分析中,每透镜剂量的互信息(信息增益)在 80kVp 和 252mAs 时最大。

结论

我们的结果表明,轴位 CT 和三维 CT 血管造影的合适管电压分别为 100kVp 和 80kVp,制造商推荐的有效毫安秒值是合适的。

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