来自非均匀加宽谱线的磁化传递（ihMT）：1.5特斯拉下人脑成像饱和参数的实验优化

Magnetization transfer from inhomogeneously broadened lines (ihMT): Experimental optimization of saturation parameters for human brain imaging at 1.5 Tesla.

作者信息

Girard Olivier M, Prevost Valentin H, Varma Gopal, Cozzone Patrick J, Alsop David C, Duhamel Guillaume

机构信息

Aix Marseille Université, CRMBM-CEMEREM UMR 7339, CNRS - AMU, Marseille, France.

Department of Radiology, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Magn Reson Med. 2015 Jun;73(6):2111-21. doi: 10.1002/mrm.25330. Epub 2014 Jun 24.

DOI:10.1002/mrm.25330

PMID:24962257

Abstract

PURPOSE

Recently a new MR endogenous contrast mechanism was reported. It allows specifically imaging the magnetization transfer (MT) effect arising from inhomogeneously broadened components of the NMR spectrum, and was hence dubbed ihMT. Such unique NMR lineshape properties are presumably occurring in myelin because of its specifically ordered, multilayered sheath structure. Here, optimization of a pulsed ihMT preparation module is presented to provide guidance for future studies and improve the understanding of underlying contrast mechanisms.

METHODS

This study was performed at 1.5 Tesla on healthy volunteers. A pulsed ihMT preparation was implemented in combination with a HASTE readout module. The pulse width, interpulse repetition time, total saturation duration and RF saturation power were considered for optimization of the ihMT sensitivity and contrast.

RESULTS

An optimal configuration of the preparation module was derived, leading to 10% ihMT signal in internal capsule (relative to unsaturated data) and around 200% signal increase relative to gray matter, i.e., approximately 10-fold superior contrast compared with conventional MT ratios, measured under similar experimental conditions.

CONCLUSION

Overall the ihMT sequence was robust, sensitive and very specific for white matter. These findings suggest great potential for assessing brain myelination and for better characterization of myelin related disorders.

摘要

目的

最近报道了一种新的磁共振内源性对比机制。它能够特异性地对核磁共振波谱中非均匀展宽成分所产生的磁化传递（MT）效应进行成像，因此被称为ihMT。由于髓鞘具有特殊的有序多层鞘状结构，这种独特的核磁共振线形特性可能出现在髓鞘中。本文介绍了一种脉冲ihMT制备模块的优化方法，为未来的研究提供指导，并增进对潜在对比机制的理解。

方法

本研究在1.5特斯拉场强下对健康志愿者进行。将脉冲ihMT制备与快速自旋回波（HASTE）读出模块相结合。考虑脉冲宽度、脉冲间重复时间、总饱和持续时间和射频饱和功率，以优化ihMT的灵敏度和对比度。

结果

得出了制备模块的最佳配置，在内囊处产生了10%的ihMT信号（相对于未饱和数据），相对于灰质信号增加了约200%，即在类似实验条件下测量时，与传统MT比率相比对比度提高了约10倍。

结论

总体而言，ihMT序列对白质具有稳健性、敏感性和高度特异性。这些发现表明，ihMT序列在评估脑髓鞘形成和更好地表征髓鞘相关疾病方面具有巨大潜力。

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来自非均匀加宽谱线的磁化传递（ihMT）：1.5特斯拉下人脑成像饱和参数的实验优化

Magnetization transfer from inhomogeneously broadened lines (ihMT): Experimental optimization of saturation parameters for human brain imaging at 1.5 Tesla.

作者信息

Girard Olivier M, Prevost Valentin H, Varma Gopal, Cozzone Patrick J, Alsop David C, Duhamel Guillaume

机构信息

Aix Marseille Université, CRMBM-CEMEREM UMR 7339, CNRS - AMU, Marseille, France.

Department of Radiology, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Magn Reson Med. 2015 Jun;73(6):2111-21. doi: 10.1002/mrm.25330. Epub 2014 Jun 24.

DOI:10.1002/mrm.25330

PMID:24962257

Abstract

PURPOSE

METHODS

RESULTS

CONCLUSION

摘要

目的

方法

结果

结论

总体而言，ihMT序列对白质具有稳健性、敏感性和高度特异性。这些发现表明，ihMT序列在评估脑髓鞘形成和更好地表征髓鞘相关疾病方面具有巨大潜力。

来自非均匀加宽谱线的磁化传递（ihMT）：1.5特斯拉下人脑成像饱和参数的实验优化

Magnetization transfer from inhomogeneously broadened lines (ihMT): Experimental optimization of saturation parameters for human brain imaging at 1.5 Tesla.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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来自非均匀加宽谱线的磁化传递（ihMT）：1.5特斯拉下人脑成像饱和参数的实验优化

Magnetization transfer from inhomogeneously broadened lines (ihMT): Experimental optimization of saturation parameters for human brain imaging at 1.5 Tesla.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

相似文献

引用本文的文献