使用噪声功率谱(NPS)方法分析电子管电流、切片厚度和电子管电压对ct扫描图像噪声的影响

Anggita Ananda Kirei, R. Widita
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摘要

本研究采用噪声功率谱(NPS)方法对 CT 扫描图像进行分析,以确定电子管电流、切片厚度和电子管电压对噪声的影响。此外,这项研究还旨在确定电子管电流、切片厚度和电子管电压的最佳范围,以便在保持患者安全剂量的同时,最大限度地减少 CT 扫描图像中的噪声。研究参数包括电子管电流值随切片厚度变化而变化,电子管电压分别为 80 千伏和 120 千伏。使用的电子管电流(mAs)变化为 150 mAs、200 mAs、250 mAs、300 mAs 和 350 mAs,切片厚度变化为 0.8 mm、1.6 mm、3.2 mm、4.8 mm 和 9.6 mm。研究使用的材料是带有水模型的 Phillips 16 片通道 CT 扫描仪。获得的图像数据使用 ImQuest 和 ImageJ 软件进行分析。结果显示,随着电子管电流(毫安)、切片厚度(毫米)和电子管电压(毫伏)的增加,噪声值也随之降低。最小的曲线下面积(AUC)值证明了这一点,在 120 kV 时,管电流变化的方差为 24.46,在 120 kV 时,切片厚度变化的方差为 3.57。因此,为了最大限度地减少噪音,建议增加电子管电流、切片厚度和电子管电压。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of the Effect of Tube Current, Slice Thickness, and Tube Voltage on Ct Scan Image Noise using the Noise Power Spectrum (NPS) Method
This study was conducted to analyze CT scan images in order to determine the effect of tube current, slice thickness, and tube voltage on noise using the Noise Power Spectrum (NPS) method. Moreover, this study was also aimed to identify the optimal range of tube current, slice thickness, and tube voltage values to minimize noise formation in CT scan images while maintaining the safe dose for the patients. The research parameters included variations in tube current values with slice thickness variations, using tube voltages of 80 kV and 120 kV. The tube current (mAs) variations used were 150 mAs, 200 mAs, 250 mAs, 300 mAs, and 350 mAs, while the slice thickness variations were 0.8 mm, 1.6 mm, 3.2 mm, 4.8 mm, and 9.6 mm. A Phillips 16-slice access CT scan with a water phantom was utilized as the material for the research. The obtained image data were analyzed using ImQuest and ImageJ software. The results show that as the variations in tube current (mAs), slice thickness (mm), and tube voltage (mV) increase, the noise values decrease. This was demonstrated by the smallest area under the curve (AUC) values, which were 24.46 variance for the tube current variation at 120 kV and 3.57 variance for the slice thickness variation at 120 kV. Thus, to minimize the noise, it is recommended to increase the tube current, slice thickness, and tube voltage.
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