大视场光谱光子计数 CT 系统肺部成像的可行性。

Feasibility of lung imaging with a large field-of-view spectral photon-counting CT system.

机构信息

Claude-Bernard University Lyon 1, CREATIS, CNRS UMR 5220, INSERM U1206, INSA-Lyon, 69621 Villeurbanne cedex, France; Department of Radiology, Hospices Civils de Lyon, 69000 Lyon, France.

出版信息

Diagn Interv Imaging. 2021 May;102(5):305-312. doi: 10.1016/j.diii.2021.01.001. Epub 2021 Feb 18.

DOI:10.1016/j.diii.2021.01.001

PMID:33610503

Abstract

PURPOSE

The purpose of this study was to characterize the technical capabilities and feasibility of a large field-of-view clinical spectral photon-counting computed tomography (SPCCT) prototype for high-resolution (HR) lung imaging.

MATERIALS AND METHODS

Measurement of modulation transfer function (MTF) and acquisition of a line pairs phantom were performed. An anthropomorphic lung nodule phantom was scanned with standard (120kVp, 62mAs), low (120kVp, 11mAs), and ultra-low (80kVp, 3mAs) radiation doses. A human volunteer underwent standard (120kVp, 63mAs) and low (120kVp, 11mAs) dose scans after approval by the ethics committee. HR images were reconstructed with 1024 matrix, 300mm field of view and 0.25mm slice thickness using a filtered-back projection (FBP) and two levels of iterative reconstruction (iDose 5 and 9). The conspicuity and sharpness of various lung structures (distal airways, vessels, fissures and proximal bronchial wall), image noise, and overall image quality were independently analyzed by three radiologists and compared to a previous HR lung CT examination of the same volunteer performed with a conventional CT equipped with energy integrating detectors (120kVp, 10mAs, FBP).

RESULTS

Ten percent MTF was measured at 22.3lp/cm with a cut-off at 31lp/cm. Up to 28lp/cm were depicted. While mixed and solid nodules were easily depicted on standard and low-dose phantom images, higher iDose levels and slice thicknesses (1mm) were needed to visualize ground-glass components on ultra-low-dose images. Standard dose SPCCT images of in vivo lung structures were of greater conspicuity and sharpness, with greater overall image quality, and similar image noise (despite a flux reduction of 23%) to conventional CT images. Low-dose SPCCT images were of greater or similar conspicuity and sharpness, similar overall image quality, and lower but acceptable image noise (despite a flux reduction of 89%).

CONCLUSIONS

A large field-of-view SPCCT prototype demonstrates HR technical capabilities and high image quality for high resolution lung CT in human.

摘要

目的

本研究旨在描述一种大视场临床光谱光子计数 CT（SPCCT）原型的技术能力和可行性，用于高分辨率（HR）肺部成像。

材料与方法

进行调制传递函数（MTF）测量和线对体模采集。对带有标准（120kVp，62mAs）、低（120kVp，11mAs）和超低（80kVp，3mAs）辐射剂量的人工肺结节体模进行扫描。在伦理委员会批准后，一名志愿者接受了标准（120kVp，63mAs）和低剂量（120kVp，11mAs）扫描。使用滤波反投影（FBP）和两级迭代重建（iDose 5 和 9），以 1024 矩阵、300mm 视野和 0.25mm 层厚重建 HR 图像。三位放射科医生分别对各种肺结构（远端气道、血管、裂罅和近端支气管壁）的显影度和锐利度、图像噪声和整体图像质量进行分析，并与同一位志愿者之前使用配备能量积分探测器的常规 CT（120kVp，10mAs，FBP）进行的 HR 肺部 CT 检查进行比较。

结果

在 22.3lp/cm 处测量到 10%的 MTF，截止值为 31lp/cm。最高可显示 28lp/cm。在标准和低剂量体模图像上，混合和实性结节很容易显示，而在超低剂量图像上，需要更高的 iDose 水平和层厚（1mm）才能显示磨玻璃成分。体内肺结构的标准剂量 SPCCT 图像具有更高的显影度和锐利度，整体图像质量更高，图像噪声相似（尽管通量减少 23%），与常规 CT 图像相似。低剂量 SPCCT 图像的显影度和锐利度更高或相似，整体图像质量相似，图像噪声较低但可接受（尽管通量减少 89%）。

结论

大视场 SPCCT 原型在人体 HR 肺部 CT 中展示了高分辨率技术能力和高质量图像。

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大视场光谱光子计数 CT 系统肺部成像的可行性。

Feasibility of lung imaging with a large field-of-view spectral photon-counting CT system.

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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