Enhanced K-Edge Radiography Using a High-Spatial-Resolution Cadmium Telluride Array Detector

International Journal of Medical Physics, Clinical Engineering and Radiation Oncology Pub Date : 2018-07-18 DOI:10.4236/ijmpcero.2018.73024

Manabu Watanabe, E. Sato, Yasuyuki Oda, Hodaka Moriyama, Osahiko Hagiwara, H. Matsukiyo, T. Enomoto, S. Kusachi

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引用次数: 4

Abstract

To confirm the imaging effect of a dual-energy (DE) cadmium telluride (CdTe) array detector (XCounter, Actaeon) and to perform fundamental studies on DE computed tomography, we performed enhanced K-edge radiography using iodine (I) and gadolinium (Gd) media. DE radiography was performed using an X-ray generator with a 0.1-mm-diam-focus tube and a 0.5-mm-thick beryllium window, a 1.0-mm-thick aluminum filter for absorbing extremely low-energy photons, and the CdTe array detector with pixel dimensions of 0.1 × 0.1 mm2. Each pixel has a charge-sensitive amplifier and a dual-energy counter, and the event pulses from the amplifier are sent to the counter to determine two threshold energies. The tube current was a maximum value of 0.50 mA, and the tube voltages for I- and Gd-K-edge radiograms were 60 and 80 kV, respectively. In the I-K-edge radiography of a dog-heart phantom at an energy range of 33 - 60 keV, the muscle density increased, and fine coronary arteries were visible. Utilizing Gd-K-edge radiography of a rabbit head phantom at an energy range of 50 - 80 keV, the muscle density increased, and fine blood vessels in the nose were observed at high contrasts. Using the DE array detector, we confirmed the image-contrast variations with changes in the threshold energy.

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使用高空间分辨率碲化镉阵列探测器的增强k边缘射线照相

为了确认双能(DE)碲化镉(CdTe)阵列探测器(XCounter, Actaeon)的成像效果，并对DE计算机断层扫描进行基础研究，我们使用碘(I)和钆(Gd)介质进行了增强的k边缘射线照相。采用直径为0.1 mm的聚焦管、0.5 mm厚的铍窗、1.0 mm厚的铝滤光片和像素尺寸为0.1 × 0.1 mm2的CdTe阵列探测器进行DE射线照相。每个像素具有电荷敏感放大器和双能量计数器，来自放大器的事件脉冲被发送到计数器以确定两个阈值能量。管电流最大值为0.50 mA, I边和gd - k边射线图的管电压分别为60和80 kV。在33 ~ 60kev能量范围内，狗心幻像的i - k边缘x线片显示肌肉密度增加，可见细小冠状动脉。利用50 ~ 80 keV能量范围的gd - k边缘x线摄影，兔头幻肢肌肉密度增加，高对比度下观察到鼻内细小血管。利用DE阵列探测器，我们证实了图像对比度随阈值能量变化的变化。

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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International Journal of Medical Physics, Clinical Engineering and Radiation Oncology

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