使用短TR绝热反转恢复制备的回波平面成像(STAIR-EPI)序列进行定量髓鞘水成像。

Frontiers in radiology Pub Date : 2023-09-28 eCollection Date: 2023-01-01 DOI:10.3389/fradi.2023.1263491
Hamidreza Shaterian Mohammadi, Dina Moazamian, Jiyo S Athertya, Soo Hyun Shin, James Lo, Arya Suprana, Bhavsimran S Malhi, Yajun Ma
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引用次数: 0

摘要

引言:已经设计了许多髓鞘水成像(MWI)技术来专门评估髓鞘的变化。用于测量髓鞘含量变化的生物标志物被称为髓鞘水分数(MWF)。最近,短TR绝热反演恢复序列(STAIR)被认为是计算MWF的一种高效方法。本研究的目的是开发一种新的临床过渡髓鞘水成像(MWI)技术,该技术结合了STAIR制备和回声平面成像(EPI)(STAIR-EPI)序列进行数据采集。方法:脑内髓鞘水(MW)的T1和T2弛豫时间短于细胞内和细胞外水。在所提出的STAIR-EPI序列中,短TR(例如,≤300ms)与优化的反演时间一起实现了具有宽T1值范围的稳健的长T1水抑制[即,(6002000)ms]。EPI允许对剩余MW信号进行快速数据采集。本研究招募了7名健康志愿者和7名多发性硬化症患者进行扫描。在MS患者的病变和正常白质(NAWM)中测量表观髓磷脂水分数(aMWF),定义为MW与总水的信号比,并与健康志愿者的正常白质中测量的值进行比较。结果:从MS患者的STAIR-EPI图像中可以看出,MS病变的信号强度低于NAWM。两种MS病变的aMWF测量值(3.6 ± 1.3%)和NAWM(8.6 ± 1.2%)显著低于NWM(10 ± 1.3%)(P 讨论:所提出的STAIR-EPI技术可以在所有供应商的MRI扫描仪中实现,能够检测多发性硬化症患者的多发性病变和NAWM中的髓鞘丢失。
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Quantitative myelin water imaging using short TR adiabatic inversion recovery prepared echo-planar imaging (STAIR-EPI) sequence.

Introduction: Numerous techniques for myelin water imaging (MWI) have been devised to specifically assess alterations in myelin. The biomarker employed to measure changes in myelin content is known as the myelin water fraction (MWF). The short TR adiabatic inversion recovery (STAIR) sequence has recently been identified as a highly effective method for calculating MWF. The purpose of this study is to develop a new clinical transitional myelin water imaging (MWI) technique that combines STAIR preparation and echo-planar imaging (EPI) (STAIR-EPI) sequence for data acquisition.

Methods: Myelin water (MW) in the brain has shorter T1 and T2 relaxation times than intracellular and extracellular water. In the proposed STAIR-EPI sequence, a short TR (e.g., ≤300 ms) together with an optimized inversion time enable robust long T1 water suppression with a wide range of T1 values [i.e., (600, 2,000) ms]. The EPI allows fast data acquisition of the remaining MW signals. Seven healthy volunteers and seven patients with multiple sclerosis (MS) were recruited and scanned in this study. The apparent myelin water fraction (aMWF), defined as the signal ratio of MW to total water, was measured in the lesions and normal-appearing white matter (NAWM) in MS patients and compared with those measured in the normal white matter (NWM) in healthy volunteers.

Results: As seen in the STAIR-EPI images acquired from MS patients, the MS lesions show lower signal intensities than NAWM do. The aMWF measurements for both MS lesions (3.6 ± 1.3%) and NAWM (8.6 ± 1.2%) in MS patients are significantly lower than NWM (10 ± 1.3%) in healthy volunteers (P < 0.001).

Discussion: The proposed STAIR-EPI technique, which can be implemented in MRI scanners from all vendors, is able to detect myelin loss in both MS lesions and NAWM in MS patients.

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