Deep Learning-Based Breath-Hold and Free-Breathing Cine MRI for Comprehensive Cardiac Evaluation.

IF 5.3 2区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Korean Journal of Radiology Pub Date : 2025-10-01 DOI:10.3348/kjr.2025.0440

Yali Wu, Wei Sun, Shiyu Wang, Xianling Qian, Qingqing Wen, Guifeng Fu, Hang Jin, Lin Tian, Yinyin Chen, Mengsu Zeng

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引用次数: 0

Abstract

Objective: To evaluate and compare scan times, measurement accuracy, and image quality (IQ) of free-breathing (FB) and breath-hold (BH) deep learning (DL) cine MRI sequences versus standard cine MRI, with a specific focus on patients with arrhythmia and dyspnea.

Materials and methods: Seventy participants were prospectively enrolled, including 24 with arrhythmia, 17 with dyspnea, and 29 with normal sinus rhythm and eupnea (mean age, 49 ± 17 years). Each patient underwent three cine MRI acquisitions (standard cine, BHDL, and FBDL) on a 3T scanner. Quantitative assessments of biventricular function, left ventricular mass, and myocardial strain were independently performed by three radiologists, blinded to image acquisition techniques. IQ was evaluated by the same readers using both a five-point Likert scale and objective metrics.

Results: Both BHDL and FBDL significantly reduced total examination times compared to standard cine (BHDL: 58 ± 5 s; FBDL: 88 ± 12 s; standard cine: 208 ± 12 s; adjusted P < 0.001). Quantitative measurements from BHDL and FBDL showed no statistically significant differences compared to standard cine and showed strong correlations (correlation coefficients > 0.85) with standard cine. BHDL consistently demonstrated narrower 95% limits of agreement (LOA) than FBDL across all parameters. For BHDL, the 95% LOA for left and right ventricular ejection fractions were -3.5% to 3.9% and -3.4% to 4.0%, respectively; for FBDL, they were -4.6% to 5.8% and -7.8% to 9.3%, respectively. In patients with arrhythmia, BHDL achieved significantly higher IQ Likert scores (4.44 ± 0.56) than both standard cine (4.00 ± 0.99; adjusted P = 0.043) and FBDL (3.94 ± 0.56; adjusted P = 0.030). In patients with dyspnea, FBDL received the highest IQ scores (4.24 ± 0.47), outperforming standard cine (3.41 ± 0.97; adjusted P = 0.028) and BHDL (3.68 ± 0.56; adjusted P = 0.028).

Conclusion: Both FBDL and BHDL significantly reduced scan times compared to standard cine without compromising quantitative measurement accuracy. BHDL offered superior measurement accuracy and shorter scan time than FBDL. Furthermore, BHDL demonstrated robust suitability for patients with arrhythmia by minimizing arrhythmia-related artifacts, whereas FBDL was more effective in patients with dyspnea by mitigating respiratory motion artifacts.

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基于深度学习的屏气和自由呼吸电影MRI用于心脏综合评估。

目的：评估和比较自由呼吸（FB）和屏气（BH）深度学习（DL）电影MRI序列与标准电影MRI的扫描时间、测量精度和图像质量（IQ），特别关注心律失常和呼吸困难患者。材料和方法：前瞻性纳入70例受试者，其中心律失常24例，呼吸困难17例，窦性心律正常伴呼吸暂停29例（平均年龄49±17岁）。每位患者在3T扫描仪上进行了三次电影MRI采集（标准电影，BHDL和FBDL）。双心室功能、左心室质量和心肌应变的定量评估由三名不使用图像采集技术的放射科医生独立完成。同样的读者使用李克特五点量表和客观指标来评估智商。结果：与标准电影相比，BHDL和FBDL均显著减少了总检查时间（BHDL: 58±5 s; FBDL: 88±12 s；标准电影：208±12 s，经校正P < 0.001）。BHDL和FBDL的定量测量结果与标准电影相比无统计学差异，且与标准电影有很强的相关性（相关系数> 0.85）。在所有参数上，BHDL均表现出比FBDL更窄的95%一致性限（LOA）。对于BHDL，左、右心室射血分数的95% LOA分别为-3.5% ~ 3.9%和-3.4% ~ 4.0%；FBDL分别为-4.6%至5.8%和-7.8%至9.3%。心律失常患者BHDL的IQ Likert评分（4.44±0.56）明显高于标准组（4.00±0.99，校正P = 0.043）和FBDL组（3.94±0.56，校正P = 0.030）。在呼吸困难患者中，FBDL得分最高（4.24±0.47），优于标准cine（3.41±0.97，调整P = 0.028）和BHDL（3.68±0.56，调整P = 0.028）。结论：与标准胶片相比，FBDL和BHDL均可显著减少扫描时间，且不影响定量测量的准确性。与FBDL相比，BHDL具有更高的测量精度和更短的扫描时间。此外，BHDL通过减少心律失常相关的伪像，证明了对心律失常患者的强大适用性，而FBDL通过减轻呼吸运动伪像，对呼吸困难患者更有效。

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

Korean Journal of Radiology 医学-核医学

CiteScore

10.60

自引率

12.50%

发文量

141

审稿时长

1.3 months

期刊介绍： The inaugural issue of the Korean J Radiol came out in March 2000. Our journal aims to produce and propagate knowledge on radiologic imaging and related sciences. A unique feature of the articles published in the Journal will be their reflection of global trends in radiology combined with an East-Asian perspective. Geographic differences in disease prevalence will be reflected in the contents of papers, and this will serve to enrich our body of knowledge. World''s outstanding radiologists from many countries are serving as editorial board of our journal.