胰腺前瞻性加速磁共振成像的深度学习重建:使用 Dixon 脂肪抑制缩短呼吸暂停检查的临床评估。

IF 7 1区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Marianna Chaika, Jan M Brendel, Stephan Ursprung, Judith Herrmann, Sebastian Gassenmaier, Andreas Brendlin, Sebastian Werner, Marcel Dominik Nickel, Konstantin Nikolaou, Saif Afat, Haidara Almansour
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引用次数: 0

摘要

目的:深度学习(DL)支持的磁共振成像(MRI)重建可缩短屏气检查时间,并通过减少运动伪影提高图像质量。目前还缺乏针对胰腺病变的上腹部加速磁共振成像 DL 重建的前瞻性研究。在临床环境中,本研究的目的是研究基于 DL 的新型重建算法在 T1 加权容积插值屏气检查中的性能,该算法采用部分傅里叶采样和 Dixon 脂肪抑制(以下简称 VIBE-DixonDL)。目的是分析其对采集时间、图像清晰度和质量、诊断信心、胰腺病变清晰度、信噪比(SNR)和对比度-噪声比(CNR)的影响:这项前瞻性单中心研究纳入了 2023 年 1 月至 2023 年 9 月期间获得书面同意的患有各种胰腺病变的参与者。在同一疗程中,每位参与者使用一台 1.5 T 扫描仪进行了 2 次磁共振成像采集:使用 4 倍平行成像加速进行传统的对比前和对比后 T1 加权 VIBE 采集,并使用 Dixon 脂肪抑制(VIBE-Dixon,参考标准);以及使用新型 DL 重构进行部分傅里叶采样的 6 倍加速 VIBE-Dixon 采集。4 位读者对图像进行了定性分析。比较了采集时间、图像清晰度、整体图像质量、图像噪声和伪影、诊断信心以及胰腺病变的清晰度和大小。此外,还对 SNR 和 CNR 进行了定量分析:结果:32 名参与者接受了评估(平均年龄(±SD):62±19 岁;20 名男性)。VIBE-DixonDL 方法可将平均屏气时间缩短 52%(VIBE-DixonDL 为 7 秒,VIBE-Dixon 为 15 秒,P < 0.001)。使用 VIBE-DixonDL 记录的图像在图像清晰度、整体图像质量、诊断信心和胰腺病变清晰度方面都有明显改善(P < 0.001)。此外,在使用 VIBE-DixonDL 技术记录的图像中,图像噪音和运动伪影明显减少(P < 0.001)。此外,对所有读者而言,没有证据表明 VIBE-Dixon 和 VIBE-DixonDL 在病灶大小测量方面存在差异。VIBE-Dixon和VIBE-DixonDL在病灶大小方面的读数一致性非常好(类内相关系数大于90)。最后,在对比前(P = 0.025)和对比后(P < 0.001)图像中,VIBE-DIXONDL 观察到胰腺 SNR 有统计学意义的显著增加。此外,VIBE-DIXONDL 的脾脏 SNR 在对比前和对比后图像中均有增加,但只有在对比后图像中达到统计学意义(分别为 P = 0.34 和 P = 0.003)。同样,在对比前和对比后图像中均观察到 VIBE-DIXONDL 的胰腺 CNR 增加,但只有在对比后图像中达到统计学意义(分别为 P = 0.557 和 P = 0.026):经过前瞻性加速、DL增强、Dixon脂肪抑制的VIBE在临床上是可行的。结论:采用 Dixon 脂肪抑制的前瞻性加速 DL 增强 VIBE 在临床上是可行的,它能将屏气时间缩短 52%,并提供卓越的图像质量、诊断信心和胰腺病变的清晰度。这项技术对憋气能力有限的患者尤其有用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deep Learning Reconstruction of Prospectively Accelerated MRI of the Pancreas: Clinical Evaluation of Shortened Breath-Hold Examinations With Dixon Fat Suppression.

Objective: Deep learning (DL)-enabled magnetic resonance imaging (MRI) reconstructions can enable shortening of breath-hold examinations and improve image quality by reducing motion artifacts. Prospective studies with DL reconstructions of accelerated MRI of the upper abdomen in the context of pancreatic pathologies are lacking. In a clinical setting, the purpose of this study is to investigate the performance of a novel DL-based reconstruction algorithm in T1-weighted volumetric interpolated breath-hold examinations with partial Fourier sampling and Dixon fat suppression (hereafter, VIBE-DixonDL). The objective is to analyze its impact on acquisition time, image sharpness and quality, diagnostic confidence, pancreatic lesion conspicuity, signal-to-noise ratio (SNR), and contrast-to-noise ratio (CNR).

Methods: This prospective single-center study included participants with various pancreatic pathologies who gave written consent from January 2023 to September 2023. During the same session, each participant underwent 2 MRI acquisitions using a 1.5 T scanner: conventional precontrast and postcontrast T1-weighted VIBE acquisitions with Dixon fat suppression (VIBE-Dixon, reference standard) using 4-fold parallel imaging acceleration and 6-fold accelerated VIBE-Dixon acquisitions with partial Fourier sampling utilizing a novel DL reconstruction tailored to the acquisition. A qualitative image analysis was performed by 4 readers. Acquisition time, image sharpness, overall image quality, image noise and artifacts, diagnostic confidence, as well as pancreatic lesion conspicuity and size were compared. Furthermore, a quantitative analysis of SNR and CNR was performed.

Results: Thirty-two participants were evaluated (mean age ± SD, 62 ± 19 years; 20 men). The VIBE-DixonDL method enabled up to 52% reduction in average breath-hold time (7 seconds for VIBE-DixonDL vs 15 seconds for VIBE-Dixon, P < 0.001). A significant improvement of image sharpness, overall image quality, diagnostic confidence, and pancreatic lesion conspicuity was observed in the images recorded using VIBE-DixonDL (P < 0.001). Furthermore, a significant reduction of image noise and motion artifacts was noted in the images recorded using the VIBE-DixonDL technique (P < 0.001). In addition, for all readers, there was no evidence of a difference in lesion size measurement between VIBE-Dixon and VIBE-DixonDL. Interreader agreement between VIBE-Dixon and VIBE-DixonDL regarding lesion size was excellent (intraclass correlation coefficient, >90). Finally, a statistically significant increase of pancreatic SNR in VIBE-DIXONDL was observed in both the precontrast (P = 0.025) and postcontrast images (P < 0.001). Also, an increase of splenic SNR in VIBE-DIXONDL was observed in both the precontrast and postcontrast images, but only reaching statistical significance in the postcontrast images (P = 0.34 and P = 0.003, respectively). Similarly, an increase of pancreas CNR in VIBE-DIXONDL was observed in both the precontrast and postcontrast images, but only reaching statistical significance in the postcontrast images (P = 0.557 and P = 0.026, respectively).

Conclusions: The prospectively accelerated, DL-enhanced VIBE with Dixon fat suppression was clinically feasible. It enabled a 52% reduction in breath-hold time and provided superior image quality, diagnostic confidence, and pancreatic lesion conspicuity. This technique might be especially useful for patients with limited breath-hold capacity.

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来源期刊
Investigative Radiology
Investigative Radiology 医学-核医学
CiteScore
15.10
自引率
16.40%
发文量
188
审稿时长
4-8 weeks
期刊介绍: Investigative Radiology publishes original, peer-reviewed reports on clinical and laboratory investigations in diagnostic imaging, the diagnostic use of radioactive isotopes, computed tomography, positron emission tomography, magnetic resonance imaging, ultrasound, digital subtraction angiography, and related modalities. Emphasis is on early and timely publication. Primarily research-oriented, the journal also includes a wide variety of features of interest to clinical radiologists.
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