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放射性核素心肌血流灌注断层显像:准确性和图像质量分析。

Parametric imaging of myocardial blood flow with Rb PET: An accuracy and image quality analysis.

机构信息

University of Ottawa Heart Institute, Cardiac Imaging, Ottawa, ON, Canada.

University of Ottawa Heart Institute, Cardiac Imaging, Ottawa, ON, Canada; Jubilant DraxImage, Inc., Kirkland, QC, Canada; University of Ottawa, Electrical Engineering and Computer Science, Ottawa, ON, Canada.

出版信息

J Nucl Cardiol. 2024 Oct;40:102020. doi: 10.1016/j.nuclcard.2024.102020. Epub 2024 Aug 10.

DOI:10.1016/j.nuclcard.2024.102020
PMID:39134238
Abstract

BACKGROUND

We aimed to develop a framework for generating three-dimensional (3D) myocardial blood flow (MBF) images, computing their accuracy against clinically validated two-dimensional (2D) polar MBF maps of the left ventricle, and evaluating their improvements in image quality over relative myocardial perfusion imaging (MPI).

METHODS

N = 40 patients with a wide range of defect severities and uptake dynamics were retrospectively studied. The FlowQuant™ software was used to generate reference MPI and polar MBF maps and was adapted for voxel-wise MBF mapping. We evaluated agreement between parametric vs polar values for MBF at rest and stress and for reserve (stress/rest MBF). We also assessed improvements in image quality, assessed by signal-to-noise ratio, contrast-to-noise ratio, tissue-to-blood ratio, and defect severity, from relative MPI to MBF.

RESULTS

There was excellent agreement between 3D parametric and 2D polar maps for all flow parameters (interclass correlation coefficient >0.96), albeit with minimal bias (<8%) for rest and stress MBF at the patient level. Image quality substantially improved from MPI to MBF in every patient for all image-quality metrics (P < 0.0001) CONCLUSIONS: We developed a robust methodology for producing highly accurate 3D MBF images exhibiting considerably improved image quality compared to relative MPI commonly used in clinical practice.

摘要

背景

我们旨在开发一种生成三维(3D)心肌血流(MBF)图像的框架,计算其相对于左心室临床验证的二维(2D)极坐标 MBF 图的准确性,并评估其在图像质量方面相对于相对心肌灌注成像(MPI)的改善。

方法

回顾性研究了 40 名具有广泛缺陷严重程度和摄取动力学的患者。FlowQuant™ 软件用于生成参考 MPI 和极坐标 MBF 图,并适应体素级 MBF 映射。我们评估了静息和应激时 MBF 以及储备(应激/静息 MBF)的参数值与极坐标值之间的一致性。我们还评估了从相对 MPI 到 MBF 的图像质量改善,通过信噪比、对比噪声比、组织与血液比和缺陷严重程度来评估。

结果

所有血流参数的 3D 参数与 2D 极坐标图之间具有极好的一致性(组内相关系数>0.96),尽管在患者水平上静息和应激 MBF 的最小偏差(<8%)。与在临床实践中常用的相对 MPI 相比,对于所有图像质量指标,MBF 从 MPI 到 MBF 的图像质量都有很大的提高(P<0.0001)。

结论

我们开发了一种生成高度准确的 3D MBF 图像的稳健方法,与在临床实践中常用的相对 MPI 相比,其图像质量有了相当大的改善。

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