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BACKGROUND & AIMS: By reducing some magnetic resonance imaging (MRI) sequences, abbreviated MRI (aMRI) has shown extensive promise for detecting hepatocellular carcinoma (HCC). We aim to develop deep learning (DL)-based gadolinium-free contrast-enhanced (CE) aMRI protocols (DL-aMRI) for detecting HCC.

METHODS

In total, 1,769 patients (913 with HCC) were retrospectively included from three institutions for training, testing, and external validation. Stable diffusion-based DL models were trained to generate CE-MRI, including T1-weighted arterial, portal venous, transitional, and hepatobiliary phase images (AP-syn, VP-syn, TP-syn, and HBP-syn, respectively). Non-contrast-MRI (NC-MRI), including T2-weighted, diffusion-weighted, and pre-contrast T1-weighted (Pre) sequences, along with either actual or DL-synthesized CE-MRI (AP, VP, TP, and HBP or AP-syn, VP-syn, TP-syn, and HBP-syn), were used to create conventional complete MRI (cMRI) and DL-aMRI protocols. An inter-method comparison of image quality between DL-aMRI and cMRI was conducted using a non-inferiority test. The sensitivity and specificity of DL-aMRI and cMRI for detecting HCC were statistically compared using the non-inferiority test and generalized estimating equations models.

RESULTS

DL-aMRI showed a remarkable reduction in acquisition time compared with cMRI (4.1 28.1 min). The image quality of DL-synthesized CE-MRI was not inferior to that of actual CE-MRI ( <0.001). There was an excellent inter-method agreement between the HCC sizes measured by the two protocols (R = 0.9436-0.9683). The pooled sensitivity and specificity of cMRI and DL-aMRI were 0.899 and 0.925 and 0.866 and 0.922, respectively. No significant differences were found between the sensitivity and specificity of the two protocols.

CONCLUSIONS

The proposed DL-aMRI could facilitate precise HCC diagnosis with no need for contrast agents, a substantial reduction in acquisition time, and preservation of both NC-MRI and CE-MRI data. DL-aMRI may serve as a valuable tool for HCC diagnosing.

IMPACT AND IMPLICATIONS

In this multi-center study involving 1,769 participants, we developed a generative deep learning-based abbreviated MRI (DL-aMRI) strategy that provides an efficient, contrast-agent-free alternative for detecting HCC with accuracy comparable to that of conventional complete MRI, significantly reducing acquisition time from 28.1 min to just 4.1 min. This strategy is valuable for clinicians who face significant workloads resulting from long MRI scanning times and the potential adverse effects of contrast agents, as well as for researchers focused on developing cost-effective and accessible diagnostic tools for HCC detection. The proposed DL-aMRI protocol has practical implications for clinical settings, enhancing diagnostic efficiency while maintaining high image quality, eliminating the need for contrast agents and ultimately benefiting patients and healthcare providers.

METHODS

RESULTS

CONCLUSIONS

IMPACT AND IMPLICATIONS

背景与目的

通过减少一些磁共振成像（MRI）序列，简化MRI（aMRI）在检测肝细胞癌（HCC）方面已显示出广泛前景。我们旨在开发基于深度学习（DL）的无钆对比增强（CE）aMRI方案（DL-aMRI）用于检测HCC。

方法

总共从三个机构回顾性纳入1769例患者（913例HCC患者）用于训练、测试和外部验证。基于稳定扩散的DL模型经训练生成CE-MRI，包括T1加权动脉期、门静脉期、移行期和肝胆期图像（分别为AP-syn、VP-syn、TP-syn和HBP-syn）。将非对比MRI（NC-MRI），包括T2加权、扩散加权和对比前T1加权（Pre）序列，以及实际的或DL合成的CE-MRI（AP、VP、TP和HBP或AP-syn、VP-syn、TP-syn和HBP-syn）用于创建传统完整MRI（cMRI）和DL-aMRI方案。使用非劣效性检验对DL-aMRI和cMRI之间的图像质量进行方法间比较。使用非劣效性检验和广义估计方程模型对DL-aMRI和cMRI检测HCC的敏感性和特异性进行统计学比较。

结果

与cMRI相比，DL-aMRI的采集时间显著缩短（4.1对28.1分钟）。DL合成的CE-MRI的图像质量不低于实际CE-MRI（P<0.001）。两种方案测量的HCC大小之间存在极好的方法间一致性（R=0.9436-0.9683）。cMRI和DL-aMRI的合并敏感性和特异性分别为0.899和0.925以及0.866和0.922。两种方案的敏感性和特异性之间未发现显著差异。

结论

所提出的DL-aMRI无需使用对比剂即可促进HCC的精确诊断，显著减少采集时间，并保留NC-MRI和CE-MRI数据。DL-aMRI可能成为HCC诊断的有价值工具。

影响与意义

在这项涉及1769名参与者的多中心研究中,我们开发了一种基于生成式深度学习的简化MRI（DL-aMRI）策略，该策略为检测HCC提供了一种高效、无对比剂的替代方法，其准确性与传统完整MRI相当，采集时间从28.1分钟显著缩短至仅4.1分钟。该策略对于因MRI扫描时间长和对比剂潜在不良反应而面临大量工作量的临床医生以及专注于开发经济高效且可及的HCC检测诊断工具的研究人员具有重要价值。所提出的DL-aMRI方案对临床环境具有实际意义，可提高诊断效率同时保持高图像质量，无需使用对比剂，最终使患者和医疗服务提供者受益。