双能心脏计算机断层扫描中电子密度图和融合图像的应用以促进延迟碘增强的检测。

Use of Electron Density Maps and Fused Images in Dual-Energy Cardiac Computed Tomography to Facilitate Detection of Late Iodine Enhancement.

作者信息

Mochizuki Junji, Hata Yoshiki, Nakaura Takeshi, Nagayama Yasunori, Kidoh Masafumi, Uetani Hiroyuki, Shiraishi Kaori, Kobayashi Naoki, Funama Yoshinori, Hirai Toshinori

机构信息

Minamino Cardiovascular Hospital Tokyo Japan.

Department of Diagnostic Radiology, Graduate School of Medical Sciences, Kumamoto University Kumamoto Japan.

出版信息

Circ Rep. 2025 Apr 11;7(5):341-349. doi: 10.1253/circrep.CR-24-0115. eCollection 2025 May 9.

DOI:10.1253/circrep.CR-24-0115

PMID:40352123

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12061510/

Abstract

BACKGROUND

This study aimed to optimize the fusion of quantitative maps and morphological images to improve late iodine enhancement (LIE) imaging using cardiac dual-energy computed tomography (DECT).

METHODS AND RESULTS

We retrospectively analyzed 15 patients with suspected old myocardial infarction who underwent cardiac DECT. Virtual monochromatic images (VMI) ranging from 40 to 200 keV and quantitative maps (e.g., iodine concentration, effective atomic number, and electron density [(%EDW: percentage relative to the electron density of water)] were generated. The contrast-to-noise ratio (CNR) between LIE areas and the left ventricular (LV) blood pool and normal myocardium was calculated to determine the optimal image fusion for LIE delineation. VMI at 40 keV demonstrated superior CNR between LIE areas and normal myocardium. Electron density was significantly higher in LIE areas [105.5%EDW (interquartile range (IQR): 105.15-105.65)] than in the LV blood pool [104.4%EDW (IQR: 104.3-104.6)] and normal myocardium [104.4%EDW (IQR: 104.2-104.65)] (P<0.001). Iodine concentration and effective atomic number differed significantly between LIE areas and normal myocardium, but did not differ significantly between LIE areas and the LV blood pool. Fusion of 40 keV VMI with electron density maps yielded the highest area under the receiver operating characteristic curve (0.917).

CONCLUSIONS

Fused images combining 40 keV VMI with electron density maps significantly enhanced the visualization of LIE areas on DECT, offering improved contrast and diagnostic accuracy for the assessment of myocardial territories.

摘要

背景

本研究旨在优化定量图谱与形态学图像的融合，以利用心脏双能量计算机断层扫描（DECT）改善延迟碘增强（LIE）成像。

方法与结果

我们回顾性分析了15例疑似陈旧性心肌梗死且接受心脏DECT检查的患者。生成了能量范围为40至200 keV的虚拟单色图像（VMI）以及定量图谱（例如碘浓度、有效原子序数和电子密度[（%EDW：相对于水的电子密度的百分比）]）。计算LIE区域与左心室（LV）血池及正常心肌之间的对比噪声比（CNR），以确定用于LIE描绘的最佳图像融合方式。40 keV的VMI在LIE区域与正常心肌之间显示出更高的CNR。LIE区域的电子密度[105.5%EDW（四分位间距（IQR）：105.15 - 105.65）]显著高于LV血池[104.4%EDW（IQR：104.3 - 104.6）]和正常心肌[104.4%EDW（IQR：104.2 - 104.65）]（P<0.001）。LIE区域与正常心肌之间的碘浓度和有效原子序数存在显著差异，但LIE区域与LV血池之间无显著差异。40 keV的VMI与电子密度图谱融合产生了最高的受试者操作特征曲线下面积（0.917）。

结论

将40 keV的VMI与电子密度图谱相结合的融合图像显著增强了DECT上LIE区域的可视化，为心肌区域的评估提供了更好的对比度和诊断准确性。

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双能心脏计算机断层扫描中电子密度图和融合图像的应用以促进延迟碘增强的检测。

Use of Electron Density Maps and Fused Images in Dual-Energy Cardiac Computed Tomography to Facilitate Detection of Late Iodine Enhancement.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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