Deep learning for efficient reconstruction of highly accelerated 3D FLAIR MRI in neurological deficits.

IF 2 4区 医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Magnetic Resonance Materials in Physics, Biology and Medicine Pub Date : 2024-08-30 DOI:10.1007/s10334-024-01200-8
Luka C Liebrand, Dimitrios Karkalousos, Émilie Poirion, Bart J Emmer, Stefan D Roosendaal, Henk A Marquering, Charles B L M Majoie, Julien Savatovsky, Matthan W A Caan
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Abstract

Objective: To compare compressed sensing (CS) and the Cascades of Independently Recurrent Inference Machines (CIRIM) with respect to image quality and reconstruction times when 12-fold accelerated scans of patients with neurological deficits are reconstructed.

Materials and methods: Twelve-fold accelerated 3D T2-FLAIR images were obtained from a cohort of 62 patients with neurological deficits on 3 T MRI. Images were reconstructed offline via CS and the CIRIM. Image quality was assessed in a blinded and randomized manner by two experienced interventional neuroradiologists and one experienced pediatric neuroradiologist on imaging artifacts, perceived spatial resolution (sharpness), anatomic conspicuity, diagnostic confidence, and contrast. The methods were also compared in terms of self-referenced quality metrics, image resolution, patient groups and reconstruction time. In ten scans, the contrast ratio (CR) was determined between lesions and white matter. The effect of acceleration factor was assessed in a publicly available fully sampled dataset, since ground truth data are not available in prospectively accelerated clinical scans. Specifically, 451 FLAIR scans, including scans with white matter lesions, were adopted from the FastMRI database to evaluate structural similarity (SSIM) and the CR of lesions and white matter on ranging acceleration factors from four-fold up to 12-fold.

Results: Interventional neuroradiologists significantly preferred the CIRIM for imaging artifacts, anatomic conspicuity, and contrast. One rater significantly preferred the CIRIM in terms of sharpness and diagnostic confidence. The pediatric neuroradiologist preferred CS for imaging artifacts and sharpness. Compared to CS, the CIRIM reconstructions significantly improved in terms of imaging artifacts and anatomic conspicuity (p < 0.01) for higher resolution scans while yielding a 28% higher SNR (p = 0.001) and a 5.8% lower CR (p = 0.04). There were no differences between patient groups. Additionally, CIRIM was five times faster than CS was. An increasing acceleration factor did not lead to changes in CR (p = 0.92), but led to lower SSIM (p = 0.002).

Discussion: Patients with neurological deficits can undergo MRI at a range of moderate to high acceleration. DL reconstruction outperforms CS in terms of image resolution, efficient denoising with a modest reduction in contrast and reduced reconstruction times.

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深度学习用于高效重建神经功能缺损的高加速三维 FLAIR MRI。
目的:比较压缩传感(CS)和独立递归推理机级联(CIRIM)对神经功能缺损患者进行 12 倍加速扫描重建时的图像质量和重建时间:通过 3 T MRI 从 62 名神经功能缺损患者中获取了 12 倍加速三维 T2-FLAIR 图像。通过 CS 和 CIRIM 对图像进行离线重建。两名经验丰富的介入神经放射科医生和一名经验丰富的儿科神经放射科医生以盲法和随机的方式对成像伪影、感知空间分辨率(清晰度)、解剖清晰度、诊断信心和对比度进行了图像质量评估。两种方法还在自我参照质量指标、图像分辨率、患者群体和重建时间方面进行了比较。在十次扫描中,确定了病变和白质之间的对比度(CR)。由于前瞻性加速临床扫描无法获得地面实况数据,因此在公开的全采样数据集中对加速因子的影响进行了评估。具体来说,从FastMRI数据库中采用了451个FLAIR扫描,包括白质病变扫描,以评估结构相似性(SSIM)以及病变和白质在4倍至12倍加速因子范围内的CR:结果:介入神经放射医师在成像伪影、解剖清晰度和对比度方面明显更倾向于使用 CIRIM。一位评分者在清晰度和诊断信心方面明显更倾向于 CIRIM。小儿神经放射科医生在成像伪影和清晰度方面更倾向于 CS。与 CS 相比,CIRIM 重构在成像伪影和解剖清晰度方面有明显改善(p 讨论):有神经功能障碍的患者可以在中高加速度范围内进行核磁共振成像。DL 重建在图像分辨率、有效去噪且对比度略有降低以及重建时间缩短方面优于 CS。
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来源期刊
CiteScore
4.60
自引率
0.00%
发文量
58
审稿时长
>12 weeks
期刊介绍: MAGMA is a multidisciplinary international journal devoted to the publication of articles on all aspects of magnetic resonance techniques and their applications in medicine and biology. MAGMA currently publishes research papers, reviews, letters to the editor, and commentaries, six times a year. The subject areas covered by MAGMA include: advances in materials, hardware and software in magnetic resonance technology, new developments and results in research and practical applications of magnetic resonance imaging and spectroscopy related to biology and medicine, study of animal models and intact cells using magnetic resonance, reports of clinical trials on humans and clinical validation of magnetic resonance protocols.
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