相位旋转在 3T 下的 STRESS 定位方案中的应用。

Application of phase rotation to STRESS localization scheme at 3 T.

机构信息

Chemical Physics Department, Weizmann Institute of Science, Rehovot, Israel.

出版信息

Magn Reson Med. 2018 May;79(5):2481-2490. doi: 10.1002/mrm.26911. Epub 2017 Oct 3.

DOI:10.1002/mrm.26911

PMID:28972290

Abstract

PURPOSE

Application of phase rotation to the STRESS (=STEAM+PRESS) localization scheme, to shorten echo time, minimize J-coupling dephasing and estimate B inhomogeneity. STRESS (=STEAM + PRESS) simultaneously refocuses and acquires the double spin echo (SE ) and stimulated echo (STE ) pathways, combining PRESS-like signal with lower chemical shift displacement as in STEAM. Phase rotation effectively separates coherence pathways, allows reduction of spoiling gradients moments leading to reduction in echo time. Implementing it in STRESS allows one to individually phase-correct SE and STE prior to combination. Moreover, B inhomogeneity can be assessed by comparing the measured ratio of resonance intensities of SE and STE pathways to the simulated one.

METHODS

In vivo spectra were acquired from a single voxel placed in the sensory-motor cortex of 10 healthy volunteers, using phase rotation-STRESS/PRESS/STEAM sequences at 3 T scanner. The phases of each slice-selective pulse were incremented by Δϕ1/2/3=22.5°/-45°/45°.

RESULTS

Phase rotation-STRESS showed quantification accuracy (% Cramer Rao lower bounds) and reproducibility (% coefficients of variation) comparable to PRESS and STEAM, in both phantoms and in vivo study. Minimal echo time achieved was 13 ms.

CONCLUSION

Phase rotation complements STRESS by reducing echo time, allowing processing of each pathway individually prior to addition and providing B estimation in single voxel proton magnetic resonance spectroscopy. Magn Reson Med 79:2481-2490, 2018. © 2017 International Society for Magnetic Resonance in Medicine.

摘要

目的

将相位旋转应用于 STRESS（=STEAM+PRESS）定位方案，以缩短回波时间、最小化 J 耦合去相和估计 B 不均匀性。STRESS（=STEAM+PRESS）同时重聚并获取双自旋回波（SE）和受激回波（STE）途径，将类似于 PRESS 的信号与 STEAM 中的较低化学位移位移结合起来。相位旋转有效地分离相干途径，允许减少破坏梯度矩，从而减少回波时间。在 STRESS 中实现它可以在组合之前分别对 SE 和 STE 进行相位校正。此外，通过比较 SE 和 STE 途径的测量共振强度与模拟强度的比值，可以评估 B 不均匀性。

方法

使用相位旋转-STRESS/PRESS/STEAM 序列在 3T 扫描仪上从放置在感觉运动皮层的单个体素中获取 10 名健康志愿者的体内光谱。每个切片选择脉冲的相位增量为 Δϕ1/2/3=22.5°/-45°/45°。

结果

相位旋转-STRESS 在体模和体内研究中均表现出与 PRESS 和 STEAM 相当的定量准确性（%Cramer Rao 下限）和可重复性（%变异系数）。实现的最小回波时间为 13ms。

结论

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相位旋转在 3T 下的 STRESS 定位方案中的应用。

Application of phase rotation to STRESS localization scheme at 3 T.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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