用于小动物体内肺部动态计算机断层成像的高分辨率基于传播的成像系统。

High resolution propagation-based imaging system for in vivo dynamic computed tomography of lungs in small animals.

机构信息

Department of Mechanical and Aerospace Engineering, Monash University, Melbourne, Victoria, Australia.

出版信息

Phys Med Biol. 2018 Apr 20;63(8):08NT03. doi: 10.1088/1361-6560/aab8d2.

Abstract

We have developed an x-ray imaging system for in vivo four-dimensional computed tomography (4DCT) of small animals for pre-clinical lung investigations. Our customized laboratory facility is capable of high resolution in vivo imaging at high frame rates. Characterization using phantoms demonstrate a spatial resolution of slightly below 50 μm at imaging rates of 30 Hz, and the ability to quantify material density differences of at least 3%. We benchmark our system against existing small animal pre-clinical CT scanners using a quality factor that combines spatial resolution, image noise, dose and scan time. In vivo 4DCT images obtained on our system demonstrate resolution of important features such as blood vessels and small airways, of which the smallest discernible were measured as 55-60 μm in cross section. Quantitative analysis of the images demonstrate regional differences in ventilation between injured and healthy lungs.

摘要

我们开发了一种用于小动物体内四维计算机断层扫描（4DCT）的 X 射线成像系统，用于临床前肺部研究。我们定制的实验室设备能够以高帧率实现高分辨率的体内成像。使用体模进行的特性描述表明，在成像率为 30 Hz 时，空间分辨率略低于 50 μm，并且能够定量测量至少 3%的材料密度差异。我们使用一个质量因子将我们的系统与现有的小动物临床前 CT 扫描仪进行基准比较，该质量因子结合了空间分辨率、图像噪声、剂量和扫描时间。我们系统获得的体内 4DCT 图像显示出重要特征（如血管和小气道）的分辨率，其中可辨别的最小特征的横截面尺寸测量为 55-60 μm。图像的定量分析表明，受伤和健康肺部之间的通气存在区域差异。

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用于小动物体内肺部动态计算机断层成像的高分辨率基于传播的成像系统。

High resolution propagation-based imaging system for in vivo dynamic computed tomography of lungs in small animals.

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