High-resolution volumetric dynamic magnetic resonance imaging of the wrist using an 8-channel flexible receive coil.

IF 1.9 3区 医学 Q2 ORTHOPEDICS
Ruoxun Zi, Batool Abbas, Bili Wang, Jerzy Walczyk, Ryan Brown, Catherine Petchprapa, James Fishbaugh, Guido Gerig, Kai Tobias Block, Riccardo Lattanzi
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引用次数: 0

Abstract

Objective: Real-time imaging is useful for the evaluation of wrist instability. However, currently available real-time magnetic resonance imaging (MRI) methods are limited due to their 2D nature or provide insufficient temporal resolution and image quality for quantitative kinematic analysis. This work introduces a novel approach for volumetric dynamic MRI of the wrist joint during active motion and demonstrates the feasibility of tracking carpal bone motion.

Materials and methods: A flexible 8-element 3 T wrist receive coil and 3D-printed support platform for guiding motion were designed for dynamic wrist imaging. 2D real-time images were acquired using a fat-saturated FLASH sequence with radial sampling and reconstructed with the GRASP algorithm. Corresponding volumetric dynamic wrist images were obtained by assembling 2D real-time images into 3D snapshots using autodetected MRI-visible markers for slice alignment. The proposed method was demonstrated for radial-ulnar deviation on five healthy volunteers.

Results: The flexible wrist coil provided high SNR while allowing a wide range of wrist movements. 2D real-time wrist images were acquired with a temporal resolution of 48 ms/frame with negligible streaking artifacts. Carpal bones and metacarpal bones were properly aligned in the assembled dynamic volumes for all five subjects. The excellent bone-to-tissue contrast enabled accurate segmentation of the individual carpal bones on the assembled dynamic volumes.

Conclusion: This work introduces a novel wrist coil and demonstrates that real-time volumetric dynamic examination of the moving wrist is feasible. The achieved image quality and high temporal resolution could enable automatic segmentation of carpal bones and quantitative kinematic assessment for evaluating wrist instability.

使用 8 通道柔性接收线圈对腕部进行高分辨率容积动态磁共振成像。
目的:实时成像有助于评估腕关节不稳定性。然而,目前可用的实时磁共振成像(MRI)方法因其二维性质而受到限制,或者无法为定量运动学分析提供足够的时间分辨率和图像质量。这项研究引入了一种新方法,用于腕关节主动运动时的容积动态核磁共振成像,并证明了跟踪腕骨运动的可行性:为腕关节动态成像设计了灵活的 8 元 3 T 腕关节接收线圈和用于引导运动的 3D 打印支撑平台。使用带径向采样的脂肪饱和 FLASH 序列采集二维实时图像,并使用 GRASP 算法进行重建。利用自动检测的核磁共振可见标记进行切片对齐,将二维实时图像组装成三维快照,从而获得相应的腕部容积动态图像。在五名健康志愿者身上对桡尺偏差演示了所提出的方法:灵活的腕部线圈提供了高信噪比,同时允许大范围的腕部运动。获得的二维实时腕部图像时间分辨率为 48 毫秒/帧,条纹伪影可忽略不计。所有五名受试者的腕骨和掌骨都在组装的动态卷中正确对齐。骨骼与组织之间的对比度极佳,因此能够在组装的动态体积上准确分割单个腕骨:结论:这项研究引入了一种新型腕关节线圈,证明了对活动腕关节进行实时容积动态检查是可行的。所获得的图像质量和高时间分辨率可实现腕骨的自动分割和定量运动学评估,以评估腕关节的不稳定性。
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来源期刊
Skeletal Radiology
Skeletal Radiology 医学-核医学
CiteScore
4.40
自引率
9.50%
发文量
253
审稿时长
3-8 weeks
期刊介绍: Skeletal Radiology provides a forum for the dissemination of current knowledge and information dealing with disorders of the musculoskeletal system including the spine. While emphasizing the radiological aspects of the many varied skeletal abnormalities, the journal also adopts an interdisciplinary approach, reflecting the membership of the International Skeletal Society. Thus, the anatomical, pathological, physiological, clinical, metabolic and epidemiological aspects of the many entities affecting the skeleton receive appropriate consideration. This is the Journal of the International Skeletal Society and the Official Journal of the Society of Skeletal Radiology and the Australasian Musculoskelelal Imaging Group.
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