髓鞘的三维双回波绝热反转恢复UTE（IR-UTE）成像中的水相转变和信号归零

Water phase transition and signal nulling in 3D dual-echo adiabatic inversion-recovery UTE (IR-UTE) imaging of myelin.

作者信息

Athertya Jiyo S, Shin Soo Hyun, Malhi Bhavsimran Singh, Lo James, Sedaghat Sam, Jang Hyungseok, Ma Yajun, Du Jiang

机构信息

Department of Radiology, University of California, San Diego, California, USA.

Department of Bioengineering, University of California, San Diego, California, USA.

出版信息

Magn Reson Med. 2024 Dec;92(6):2464-2472. doi: 10.1002/mrm.30243. Epub 2024 Aug 9.

DOI:10.1002/mrm.30243

PMID:39119819

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11436297/

Abstract

PURPOSE

The semisolid myelin sheath has very fast transverse relaxation and is invisible to conventional MRI sequences. UTE sequences can detect signal from myelin. The major challenge is the concurrent detection of various water components.

METHODS

The inversion recovery (IR)-based UTE (IR-UTE) sequence employs an adiabatic inversion pulse to invert and suppress water magnetizations. TI plays a key role in water suppression, with negative water magnetizations (negative phase) before the null point and positive water magnetizations (positive phase) after the null point. A series of dual-echo IR-UTE images were acquired with different TIs to detect water phase transition. The effects of TR in phase transition and water suppression were also investigated using a relatively long TR of 500 ms and a short TR of 106 ms. The water phase transition in dual-echo IR-UTE imaging of myelin was investigated in five ex vivo and five in vivo human brains.

RESULTS

An apparent phase transition was observed in the second echo at the water signal null point, where the myelin signal was selectively detected by the UTE data acquisition at the optimal TI. The water phase transition point varied significantly across the brain when the long TR of 500 ms was used, whereas the convergence of TIs was observed when the short TR of 106 ms was used.

CONCLUSION

The results suggest that the IR-UTE sequence with a short TR allows uniform inversion and nulling of water magnetizations, thereby providing volumetric imaging of myelin.

摘要

目的

半固体髓鞘具有非常快的横向弛豫，在传统MRI序列上不可见。UTE序列能够检测到髓鞘的信号。主要挑战在于同时检测各种水成分。

方法

基于反转恢复（IR）的UTE（IR-UTE）序列采用绝热反转脉冲来反转并抑制水的磁化。TI在水抑制中起关键作用，在零点之前水磁化强度为负（负相位），在零点之后为正（正相位）。采集了一系列具有不同TI的双回波IR-UTE图像以检测水的相变。还使用500 ms的相对长TR和106 ms的短TR研究了TR在相变和水抑制中的作用。在五个离体人脑和五个活体人脑中研究了髓鞘双回波IR-UTE成像中的水相变。

结果

在水信号零点处的第二个回波中观察到明显的相变，在最佳TI时通过UTE数据采集选择性地检测到髓鞘信号。当使用500 ms的长TR时，水相变点在整个大脑中变化显著，而当使用106 ms的短TR时观察到TI的收敛。

结论

结果表明，具有短TR的IR-UTE序列能够使水磁化强度均匀反转和归零，从而提供髓鞘的容积成像。

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Ultra-short T components imaging of the whole brain using 3D dual-echo UTE MRI with rosette k-space pattern.采用三维双回波 UTE MRI 及梅花型 K 空间采集模式对全脑进行超短 T 成分成像。

Magn Reson Med. 2023 Feb;89(2):508-521. doi: 10.1002/mrm.29451. Epub 2022 Sep 25.

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Quant Imaging Med Surg. 2020 Jun;10(6):1186-1203. doi: 10.21037/qims-20-541.

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