Free-breathing high-resolution respiratory-gated radial stack-of-stars magnetic resonance imaging of the upper abdomen at 7 T.

IF 2.7 4区医学 Q2 BIOPHYSICS

NMR in Biomedicine Pub Date : 2024-10-01 Epub Date: 2024-05-22 DOI:10.1002/nbm.5180

Ivo T Maatman, Jenni Schulz, Sjoerd Ypma, Kai Tobias Block, Sebastian Schmitter, John J Hermans, Ewoud J Smit, Marnix C Maas, Tom W J Scheenen

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Abstract

Ultrahigh field magnetic resonance imaging (MRI) (≥ 7 T) has the potential to provide superior spatial resolution and unique image contrast. Apart from radiofrequency transmit inhomogeneities in the body at this field strength, imaging of the upper abdomen faces additional challenges associated with motion-induced ghosting artifacts. To address these challenges, the goal of this work was to develop a technique for high-resolution free-breathing upper abdominal MRI at 7 T with a large field of view. Free-breathing 3D gradient-recalled echo (GRE) water-excited radial stack-of-stars data were acquired in seven healthy volunteers (five males/two females, body mass index: 19.6-24.8 kg/m²) at 7 T using an eight-channel transceive array coil. Two volunteers were also examined at 3 T. In each volunteer, the liver and kidney regions were scanned in two separate acquisitions. To homogenize signal excitation, the time-interleaved acquisition of modes (TIAMO) method was used with personalized pairs of B₁ shims, based on a 23-s Cartesian fast low angle shot (FLASH) acquisition. Utilizing free-induction decay navigator signals, respiratory-gated images were reconstructed at a spatial resolution of 0.8 × 0.8 × 1.0 mm³. Two experienced radiologists rated the image quality and the impact of B₁ inhomogeneity and motion-related artifacts on multipoint scales. The images of all volunteers showcased effective water excitation and were accurately corrected for respiratory motion. The impact of B₁ inhomogeneity on image quality was minimal, underscoring the efficacy of the multitransmit TIAMO shim. The high spatial resolution allowed excellent depiction of small structures such as the adrenal glands, the proximal ureter, the diaphragm, and small blood vessels, although some streaking artifacts persisted in liver image data. In direct comparisons with 3 T performed for two volunteers, 7-T acquisitions demonstrated increases in signal-to-noise ratio of 77% and 58%. Overall, this work demonstrates the feasibility of free-breathing MRI in the upper abdomen at submillimeter spatial resolution at a magnetic field strength of 7 T.

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在 7 T 下对上腹部进行自由呼吸高分辨率呼吸门控径向星形叠加磁共振成像。

超高场磁共振成像（MRI）（≥ 7 T）可提供卓越的空间分辨率和独特的图像对比度。在这种磁场强度下，除了体内射频传输不均匀性之外，上腹部成像还面临着与运动引起的鬼影伪影相关的额外挑战。为了应对这些挑战，这项工作的目标是开发一种在 7 T 大视野下进行高分辨率自由呼吸上腹部磁共振成像的技术。使用八通道收发阵列线圈在 7 T 下采集了七名健康志愿者（五名男性/两名女性，体重指数：19.6-24.8 kg/m2）的自由呼吸三维梯度回波（GRE）水激发径向星形叠加数据。两名志愿者也在 3 T 下接受了检查。对每名志愿者的肝脏和肾脏区域分别进行了两次扫描。为了使信号激发均匀化，在 23 秒笛卡尔快速低角度扫描（FLASH）采集的基础上，使用了时间交错模式采集（TIAMO）方法和个性化的 B1 垫片对。利用自由感应衰减导航器信号，以 0.8 × 0.8 × 1.0 mm3 的空间分辨率重建了呼吸门控图像。两名经验丰富的放射科医生对图像质量以及 B1 不均匀性和运动相关伪影的影响进行了多点评分。所有志愿者的图像都显示了有效的水激发，并对呼吸运动进行了准确校正。B1 不均匀性对图像质量的影响微乎其微，凸显了多发射 TIAMO 垫片的功效。虽然肝脏图像数据中仍存在一些条纹状伪影，但高空间分辨率能很好地描绘肾上腺、输尿管近端、膈肌和小血管等小结构。在对两名志愿者进行的 3 T 采集与 7 T 采集的直接比较中，信噪比分别提高了 77% 和 58%。总之，这项工作证明了在 7 T 磁场强度下，以亚毫米空间分辨率进行上腹部自由呼吸磁共振成像的可行性。

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

NMR in Biomedicine 医学-光谱学

CiteScore

6.00

自引率

10.30%

发文量

209

审稿时长

3-8 weeks

期刊介绍： NMR in Biomedicine is a journal devoted to the publication of original full-length papers, rapid communications and review articles describing the development of magnetic resonance spectroscopy or imaging methods or their use to investigate physiological, biochemical, biophysical or medical problems. Topics for submitted papers should be in one of the following general categories: (a) development of methods and instrumentation for MR of biological systems; (b) studies of normal or diseased organs, tissues or cells; (c) diagnosis or treatment of disease. Reports may cover work on patients or healthy human subjects, in vivo animal experiments, studies of isolated organs or cultured cells, analysis of tissue extracts, NMR theory, experimental techniques, or instrumentation.