用专用乳腺CT扫描仪模拟乳腺检查的经验检测器模型

A. Sarno, G. Mettivier, K. Michielsen, J. J. Pautasso, I. Sechopoulos, P. Russo
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引用次数: 0

摘要

这项工作提出了一个经验模型,调整空间分辨率和噪声模拟图像在虚拟临床试验中的x射线乳房成像。在扩展先前对数字乳房x线照相术和数字乳房断层合成中使用的直接转换a- se检测器进行的研究中,本工作介绍了用于使用间接转换平板检测器的乳腺锥形束计算机断层扫描的模型。在模拟中,探测器被模拟成一个吸收层,其材料和厚度反映了临床扫描仪探测器闪烁体的材料和厚度。然后将模拟图像计算为剂量沉积图。在实际探测器上测量了探测器的响应曲线、调制传递函数(MTF)和噪声功率谱(NPS)。模拟的探测器和扫描仪在计算机上进行了相同的测量。模拟和测量的探测器响应曲线的比较允许在临床尺度上恢复像素值。模拟和测量的mtf之间的差异允许引入线性滤波器来补偿模拟模型简化,从而确定模拟图像中相对于真实图像的更好的空间分辨率。该滤波器在傅里叶域中呈高斯形状,由实测MTF曲线和模拟MTF曲线得出的标准差分别为0.86 mm-1和1.41 mm-1,标准差为1.09 mm-1。最后,对NPS的分析允许补偿由于模拟模型简化而产生的噪声特性。该模型应用于模拟投影图像,在模拟3D图像中产生MTF和归一化NPS,与临床扫描仪获得的结果相当。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Empirical detector model for simulated breast exams with a dedicated breast CT scanner
This work proposes an empirical model for tuning spatial resolution and noise in simulated images in virtual clinical trials in x-ray breast imaging. In extending previous studies performed for direct conversion a-Se detectors used in digital mammography and digital breast tomosynthesis, this work introduces the model for the case of cone-beam computed tomography dedicated to the breast that uses a indirect conversion flat-panel detector. In the simulations, the detector is modeled as an absorbing layer whose material and thickness reflect those of the scintillator of the detector of a clinical scanner. The simulated images are then computed as a dose deposit map. The detector response curve, modulation transfer function (MTF) and noise power spectrum (NPS) were measured on a real detector. The same measurements were replicated in-silico for the simulated detector and scanner. The comparison of simulated and measured detector response curves permits to recover pixel values at the clinical scale. The difference between the simulated and measured MTFs permitted to introduce a linear filter for compensating simulated model simplification that determines a better spatial resolution in the simulated images with respect to real images. This filter presented a Gaussian shape in the Fourier domain with a standard deviation of 1.09 mm-1 , derived from those of the measured and simulated MTF curves, of 0.86 mm-1 and 1.41 mm-1 , respectively. Finally, the analysis of the NPS permits to compensate for noise characteristics due to the simulated model simplifications. The model applied to the simulated projection images produced MTF and normalized NPS in simulated 3D images, comparable to those obtained for the clinical scanner.
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