差分相位对比 CT 和常规吸收 CT 的辐射剂量效率比较。

Radiation dose efficiency comparison between differential phase contrast CT and conventional absorption CT.

出版信息

Med Phys. 2010 Jun;37(6):2473-9. doi: 10.1118/1.3425785.

PMID:20632558

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4109701/

Abstract

PURPOSE

The superior radiation dose efficiency of a newly implemented differential phase contrast CT imaging method compared to the conventional absorption CT method is demonstrated.

METHODS

A differential phase contrast CT imaging method has recently been implemented using conventional x-ray sources with a grating interferometer consisting of three gratings. This approach offers the possibility of simultaneous reconstruction of both attenuation contrast and phase contrast images from a single acquisition. This enables a direct comparison of radiation dose efficiency of both types of reconstructed images under identical conditions. Radiation dose efficiency was studied by measuring the change in contrast-to-noise ratio (CNR) with different exposure levels. A physical phantom of 28.5 mm diameter was constructed and used for measurement of CNR in both the absorption and phase contrast CT images, which were reconstructed from the same data set.

RESULTS

For three of the four materials studied, at any given exposure level, the CNR of the differential phase contrast CT images was superior to that of the corresponding absorption contrast CT images. The most dramatic improvement was noted in the contrast between PMMA and water, where the CNR was improved by a factor of approximately 5.5 in the differential phase contrast CT images. Additionally, the CNR of phase contrast CT is empirically shown to have the same square root dependence on exposure, as is the case for absorption contrast CT.

CONCLUSIONS

The differential phase contrast CT method provided higher CNR than conventional absorption CT at equivalent dose levels for most of the materials studied, and so may enable achievement of the same object visibility as conventional absorption CT methods at a lower exposure level.

摘要

目的

证明新实施的差分相位对比 CT 成像方法比传统的吸收 CT 方法具有更高的辐射剂量效率。

方法

最近使用传统的 X 射线源和由三个光栅组成的光栅干涉仪实现了差分相位对比 CT 成像方法。这种方法提供了从单次采集同时重建衰减对比和相位对比图像的可能性。这使得可以在相同条件下直接比较两种类型的重建图像的辐射剂量效率。通过测量不同曝光水平下对比噪声比（CNR）的变化来研究辐射剂量效率。构建了一个直径为 28.5 毫米的物理体模，并用于测量吸收和相位对比 CT 图像中的 CNR，这些图像是从同一数据集重建的。

结果

在所研究的四种材料中的三种材料中，在任何给定的曝光水平下，差分相位对比 CT 图像的 CNR 均优于相应的吸收对比 CT 图像。在 PMMA 和水之间的对比度方面，观察到最显著的改善，差分相位对比 CT 图像中的 CNR 提高了约 5.5 倍。此外，经验表明，相位对比 CT 的 CNR 与吸收对比 CT 一样，与曝光呈平方根依赖关系。

结论

对于大多数研究的材料，差分相位对比 CT 方法在等效剂量水平下提供了比传统吸收 CT 更高的 CNR，因此可能能够以更低的曝光水平实现与传统吸收 CT 方法相同的目标可见度。

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