Navigator-based motion compensation for liver BOLD measurement with five-echo SAGE EPI and breath-hold task.

IF 2.7 4区医学 Q2 BIOPHYSICS NMR in Biomedicine Pub Date : 2024-10-01 Epub Date: 2024-05-24 DOI:10.1002/nbm.5173

Ke Zhang, Simon M F Triphan, Mark O Wielpütz, Christian H Ziener, Mark E Ladd, Heinz-Peter Schlemmer, Hans-Ulrich Kauczor, Oliver Sedlaczek, Felix T Kurz

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Abstract

Purpose: The purpose of this work is to apply multi-echo spin- and gradient-echo (SAGE) echo-planar imaging (EPI) combined with a navigator-based (NAV) prospective motion compensation method for a quantitative liver blood oxygen level dependent (BOLD) measurement with a breath-hold (BH) task.

Methods: A five-echo SAGE sequence was developed to quantitatively measure T₂ and T₂* to depict function with sufficient signal-to-noise ratio, spatial resolution and sensitivity to BOLD changes induced by the BH task. To account for respiratory motion, a navigator was employed in the form of a single gradient-echo projection readout, located at the diaphragm along the inferior-superior direction. Prior to each transverse imaging slice of the spin-echo EPI-based readouts, navigator acquisition and fat suppression were incorporated. Motion data was obtained from the navigator and transmitted back to the sequence, allowing real-time adjustments to slice positioning. Six healthy volunteers and three patients with liver carcinoma were included in this study. Quantitative T₂ and T₂* were calculated at each time point of the BH task. Parameters of t value from first-level analysis using a general linear model and hepatovascular reactivity (HVR) of Echo1, T₂ and T₂* were calculated.

Results: The motion caused by respiratory activity was successfully compensated using the navigator signal. The average changes of T₂ and T₂* during breath-hold were about 1% and 0.7%, respectively. With the help of NAV prospective motion compensation whole liver t values could be obtained without motion artifacts. The quantified liver T₂ (34.7 ± 0.7 ms) and T₂* (29 ± 1.2 ms) values agreed with values from literature. In healthy volunteers, the distribution of statistical t value and HVR was homogeneous throughout the whole liver. In patients with liver carcinoma, the distribution of t value and HVR was inhomogeneous due to metastases or therapy.

Conclusions: This study demonstrates the feasibility of using a NAV prospective motion compensation technique in conjunction with five-echo SAGE EPI for the quantitative measurement of liver BOLD with a BH task.

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利用五次回波 SAGE EPI 和屏气任务进行肝脏 BOLD 测量时基于导航仪的运动补偿。

目的：这项工作的目的是应用多回波自旋和梯度回波（SAGE）回声平面成像（EPI），结合基于导航仪的前瞻性运动补偿方法，在屏气（BH）任务下进行肝脏血氧水平依赖性（BOLD）定量测量：方法：开发了一种五次回波 SAGE 序列，用于定量测量 T2 和 T2*，以充分的信噪比、空间分辨率和对 BH 任务引起的 BOLD 变化的灵敏度来描述功能。为了考虑呼吸运动，采用了一个导航仪，其形式为单个梯度回波投影读出，位于膈肌沿下-上方向。在基于自旋回波 EPI 的读数的每个横向成像切片之前，都进行了导航仪采集和脂肪抑制。从导航仪获取运动数据并传回序列，以便实时调整切片定位。这项研究包括六名健康志愿者和三名肝癌患者。在 BH 任务的每个时间点计算定量 T2 和 T2*。通过使用一般线性模型进行一级分析，计算出 t 值参数以及 Echo1、T2 和 T2* 的肝血管反应性（HVR）：结果：利用导航仪信号成功补偿了呼吸活动引起的运动。屏气期间 T2 和 T2* 的平均变化分别约为 1%和 0.7%。在导航仪前瞻性运动补偿的帮助下，可获得无运动伪影的全肝T值。量化的肝脏 T2（34.7 ± 0.7 毫秒）和 T2* （29 ± 1.2 毫秒）值与文献值一致。在健康志愿者中，统计 t 值和 HVR 在整个肝脏的分布是均匀的。在肝癌患者中，t值和HVR的分布因转移或治疗而不均匀：本研究证明了将 NAV 前瞻性运动补偿技术与五次回波 SAGE EPI 结合使用以 BH 任务定量测量肝脏 BOLD 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.