Super resolution deep learning reconstruction for coronary CT angiography: A structured phantom study

IF 1.8 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

European Journal of Radiology Open Pub Date : 2024-05-24 DOI:10.1016/j.ejro.2024.100570

Toru Higaki , Fuminari Tatsugami , Mickaël Ohana , Yuko Nakamura , Ikuo Kawashita , Kazuo Awai

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引用次数: 0

Abstract

Purpose

Super-resolution deep-learning-based reconstruction: SR-DLR is a newly developed and clinically available deep-learning-based image reconstruction method that can improve the spatial resolution of CT images. The image quality of the output from non-linear image reconstructions, such as DLR, is known to vary depending on the structure of the object being scanned, and a simple phantom cannot explicitly evaluate the clinical performance of SR-DLR. This study aims to accurately investigate the quality of the images reconstructed by SR-DLR by utilizing a structured phantom that simulates the human anatomy in coronary CT angiography.

Methods

The structural phantom had ribs and vertebrae made of plaster, a left ventricle filled with dilute contrast medium, a coronary artery with simulated stenosis, and an implanted stent graft. By scanning the structured phantom, we evaluated noise and spatial resolution on the images reconstructed with SR-DLR and conventional reconstructions.

Results

The spatial resolution of SR-DLR was higher than conventional reconstructions; the 10 % modulation transfer function of hybrid IR (HIR), DLR, and SR-DLR were 0.792-, 0.976-, and 1.379 cycle/mm, respectively. At the same time, image noise was lowest (HIR: 21.1-, DLR: 19.0-, and SR-DLR: 13.1 HU). SR-DLR could accurately assess coronary artery stenosis and the lumen of the implanted stent graft.

Conclusions

SR-DLR can obtain CT images with high spatial resolution and lower noise without special CT equipments, and will help diagnose coronary artery disease in CCTA and other CT examinations that require high spatial resolution.

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冠状动脉 CT 血管造影的超分辨率深度学习重建：结构化模型研究

目的基于深度学习的超分辨率重建：SR-DLR 是一种新开发的、可用于临床的基于深度学习的图像重建方法，可提高 CT 图像的空间分辨率。众所周知，非线性图像重建（如 DLR）输出的图像质量会因扫描对象的结构而异，简单的模型无法明确评估 SR-DLR 的临床性能。本研究的目的是利用结构模型模拟冠状动脉 CT 血管造影中的人体解剖结构，准确研究 SR-DLR 重建图像的质量。方法结构模型有石膏制成的肋骨和椎骨、充满稀释造影剂的左心室、模拟狭窄的冠状动脉和植入的支架移植物。结果SR-DLR的空间分辨率高于传统重建；混合红外（HIR）、DLR和SR-DLR的10%调制传递函数分别为0.792-、0.976-和1.379周期/毫米。同时，图像噪声最低（HIR：21.1-，DLR：19.0-，SR-DLR：13.1 HU）。结论SR-DLR 可在不使用特殊 CT 设备的情况下获得高空间分辨率和低噪声的 CT 图像，有助于在 CCTA 和其他需要高空间分辨率的 CT 检查中诊断冠状动脉疾病。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European Journal of Radiology Open Medicine-Radiology, Nuclear Medicine and Imaging

CiteScore

4.10

自引率

5.00%

发文量

审稿时长

51 days