Volume-of-interest CT imaging with dynamic beam filtering using multiple aperture devices.

Conference proceedings. International Conference on Image Formation in X-Ray Computed Tomography Pub Date : 2018-05-01

Wenying Wang, Grace J Gang, Andrew Mao, Alejandro Sisniega, Jeffrey H Siewerdsen, J Webster Stayman

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Abstract

Interior tomography is promising approach for retaining high quality CT images within a volume-of-interest (VOI) while reducing the total patient dose. A static collimating filter can only image a centered symmetric VOI, which requires careful patient positioning and may be suboptimal for many clinical applications. Multiple aperture devices (MADs) are an emerging technology based on sequential binary filters that can provide a wide range of fluence patterns that may be adjusted dynamically with relatively small motions. In this work, we introduce a general approach for VOI imaging using MAD-based fluence field modulation (FFM). Physical experiments using a CT test bench are conducted illustrating off-center x-ray beam control for imaging the spine in an abdominal phantom. Image quality and dose metrics are computed for both standard full-field CT and VOI CT. We find that the image quality within the VOI can be preserved for VOI CT with a significant drop in integral dose as compared with a standard full-field protocol.

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使用多孔径设备进行动态光束滤波的感兴趣体积CT成像。

内部断层扫描是一种很有前途的方法，可以在感兴趣体积（VOI）内保留高质量的CT图像，同时减少患者的总剂量。静态准直滤波器只能对中心对称VOI成像，这需要仔细的患者定位，并且对于许多临床应用来说可能是次优的。多孔径器件（MAD）是一种基于顺序二进制滤波器的新兴技术，它可以提供宽范围的注量模式，可以用相对较小的运动动态调整。在这项工作中，我们介绍了一种使用基于MAD的注量场调制（FFM）进行VOI成像的通用方法。使用CT测试台进行物理实验，说明用于在腹部体模中对脊柱成像的偏心x射线束控制。计算了标准全场CT和VOI CT的图像质量和剂量指标。我们发现，与标准全场协议相比，VOI CT可以保持VOI内的图像质量，积分剂量显著下降。

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Conference proceedings. International Conference on Image Formation in X-Ray Computed Tomography

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