用于高分辨率动态x射线成像仪的emccd传感器阵列医学成像系统的光学演示。

Bin Qu, Ying Huang, Weiyuan Wang, Prateek Sharma, Andrew T Kuhls-Gilcrist, Alexander N Cartwright, Albert H Titus, Daniel R Bednarek, Stephen Rudin
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引用次数: 1

摘要

在医疗x射线成像仪应用中首次演示了可扩展的电子倍增ccd阵列(emccd)的使用。与信号相比,emccd的大可变电子增益(高达2000)和小像素尺寸提供了有效的读出噪声抑制,以及高分辨率,使开发的x射线探测器与传统的x射线图像增强器和平板探测器相比,性能优越得多。我们正在开发emccd阵列,以克服其有限的视场(FOV)。在这项工作中,我们报告了两个EMCCD传感器阵列以高帧率同时运行,并光学聚焦在显示钙化导管的乳房x光片上。这项工作是在一个光学台上进行的,上面有一个脉冲LED条,用来向胶片提供均匀的漫射光,以模拟x射线投影图像。系统可以选择以每秒17.5帧或更高的帧率运行。传感器的集成时间可以从1毫秒调整到1000毫秒。采用12位相关双采样AD转换器对美国国家仪器公司(National Instruments)双通道Camera Link PC板实时采集的图像进行数字化处理。利用LabVIEW编写了一个保存显示2K × 1K像素矩阵数字图像的用户界面。该演示使用一个2 × 1阵列,以不同增益获得增加视场的静止图像,并通过同时扫描两个传感器的乳房x线照片记录类似透视镜的视频。结果显示,高分辨率和高动态范围的图像拼接在一起,需要最小的调整。EMCCD阵列设计允许扩展到M×N阵列,以实现任意大的视场,同时保持高分辨率和大动态范围。
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Optical Demonstration of a Medical Imaging System with an EMCCD-Sensor Array for Use in a High Resolution Dynamic X-ray Imager.

Use of an extensible array of Electron Multiplying CCDs (EMCCDs) in medical x-ray imager applications was demonstrated for the first time. The large variable electronic-gain (up to 2000) and small pixel size of EMCCDs provide effective suppression of readout noise compared to signal, as well as high resolution, enabling the development of an x-ray detector with far superior performance compared to conventional x-ray image intensifiers and flat panel detectors. We are developing arrays of EMCCDs to overcome their limited field of view (FOV). In this work we report on an array of two EMCCD sensors running simultaneously at a high frame rate and optically focused on a mammogram film showing calcified ducts. The work was conducted on an optical table with a pulsed LED bar used to provide a uniform diffuse light onto the film to simulate x-ray projection images. The system can be selected to run at up to 17.5 frames per second or even higher frame rate with binning. Integration time for the sensors can be adjusted from 1 ms to 1000 ms. Twelve-bit correlated double sampling AD converters were used to digitize the images, which were acquired by a National Instruments dual-channel Camera Link PC board in real time. A user-friendly interface was programmed using LabVIEW to save and display 2K × 1K pixel matrix digital images. The demonstration tiles a 2 × 1 array to acquire increased-FOV stationary images taken at different gains and fluoroscopic-like videos recorded by scanning the mammogram simultaneously with both sensors. The results show high resolution and high dynamic range images stitched together with minimal adjustments needed. The EMCCD array design allows for expansion to an M×N array for arbitrarily larger FOV, yet with high resolution and large dynamic range maintained.

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