乳腺专用临床计算机断层扫描仪的噪声和空间分辨率特性

A. Sarno, G. Mettivier, K. Michielsen, J. J. Pautasso, I. Sechopoulos, P. Russo
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引用次数: 1

摘要

这项工作的目的是评估空间分辨率和噪声在三维图像中获得的临床计算机断层扫描专用于乳房(BCT)。测量了预采样调制传递函数(MTF)和噪声功率谱(NPS)。此外,该系统显示模拟病变和微钙化簇的能力通过模拟测试进行评估。评估所选重建算法对MTF、NPS和模拟病变可见性的影响。可用的算法有标准(Std)和钙化(Calc)重建算法,它们使用0.273 mm的各向同性重建体素边缘,以及高分辨率(HR)重建算法,使用0.190 mm的各向同性重建体素边缘。胸壁径向Std重建时,MTF曲线下降至10% (MTF10%)的空间频率为1.0 mm-1;HR和Calc重建时,该值分别增加到1.3 mm-1和1.5 mm-1。距离等心的距离不影响系统的空间分辨率。正如预期的那样,Calc和HR重建算法中空间分辨率的提高伴随着噪声的增加,特别是在更高的频率,如1D NPS所示。幻影研究表明,无论选择何种重建算法,都可以看到直径为1.8 mm的模拟软病变和粒径为0.29 mm的微钙化团簇。直径0.20 mm和0.13 mm的微钙化未见。
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Noise and spatial resolution characteristics of a clinical computed tomography scanner dedicated to the breast
This work aims at evaluating the spatial resolution and noise in 3D images acquired with a clinical Computed Tomography scanner dedicated to the breast (BCT). The presampled modulation transfer function (MTF) and the noise power spectrum (NPS) are measured. In addition, the capability of the system in showing simulated lesions and microcalcification clusters was assessed via a phantom test. The impact of the selected reconstruction algorithm on MTF, NPS, and simulated lesion visibility was evaluated. The available algorithms are the Standard (Std) and Calcification (Calc) reconstructions, which use an isotropic reconstructed voxel edge of 0.273 mm and the high-resolution (HR) reconstruction algorithm that uses an isotropic reconstructed voxel edge of 0.190 mm. The spatial frequency (expressed in mm-1 ) at which the MTF curve goes down to 10% (MTF10%) was found to be 1.0 mm-1 for the case of Std reconstruction in radial direction at the chest-wall; this value increases to 1.3 mm-1 and 1.5 mm-1 for the HR and Calc reconstructions, respectively. The distance from the isocenter did not impact the system spatial resolution. As expected, the improvement in the spatial resolution in the Calc and HR reconstruction algorithms is accompanied by an increase in the noise, especially at the higher frequencies, as shown in the 1D NPS. A phantom study showed that both simulated soft lesion with diameter of 1.8 mm and microcalcification cluster with grain diameter of 0.29 mm are visible, no matter what reconstruction algorithm is selected. Microcalcifications with diameter of 0.20 mm and 0.13 mm do not appear to be visible.
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