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Preliminary Observations on Sensitivity and Specificity of Magnetization Transfer Asymmetry for Imaging Myelin of Rat Brain at High Field

机译：磁化转移不对称性对高强度大鼠脑髓磷脂成像的敏感性和特异性的初步观察

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Magnetization transfer ratio (MTR) has been often used for imaging myelination. Despite its high sensitivity, the specificity of MTR to myelination is not high because tissues with no myelin such as muscle can also show high MTR. In this study, we propose a new magnetization transfer (MT) indicator, MT asymmetry (MTA), as a new method of myelin imaging. The experiments were performed on rat brain at 9.4 T. MTA revealed high signals in white matter and significantly low signals in gray matter and muscle, indicating that MTA has higher specificity than MTR. Demyelination and remyelination studies demonstrated that the sensitivity of MTA to myelination was as high as that of MTR. These experimental results indicate that MTA can be a good biomarker for imaging myelination. In addition, MTA images can be efficiently acquired with an interslice MTA method, which may accelerate clinical application of myelin imaging.

机译：磁化传递比（MTR）通常用于髓鞘成像。尽管它具有很高的敏感性，但是MTR对髓鞘形成的特异性并不高，这是因为没有髓磷脂的组织（例如肌肉）也可以表现出较高的MTR。在这项研究中，我们提出了一种新的磁化转移（MT）指标MT不对称性（MTA），作为一种髓鞘成像的新方法。实验在9.4 brainT的大鼠大脑上进行。MTA显示白质中的信号较高，而灰质和肌肉中的信号明显较低，表明MTA的特异性高于MTR。脱髓鞘和再髓鞘研究表明，MTA对髓鞘的敏感性与MTR一样高。这些实验结果表明，MTA可能是用于髓鞘成像的良好生物标记。此外，可以使用层间MTA方法有效地获取MTA图像，这可以加快髓鞘成像的临床应用。

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期刊名称 other
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Jae-Woong Kim; Jiye Choi; Janggeun Cho; Chulhyun Lee; Daejong Jeon; Sung-Hong Park;
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年(卷),期 -1(2015),-1
年度 -1
页码 565391
总页数 10
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1. Preliminary Observations on Sensitivity and Specificity of Magnetization Transfer Asymmetry for Imaging Myelin of Rat Brain at High Field [J] . Jae-Woong Kim, Jiye Choi, Janggeun Cho, BioMed research international . 2015,第36期

机译：高原大鼠大鼠髓素磁性转移不对称性敏感性和特异性的初步观察
2. Preliminary Observations on Sensitivity and Specificity of Magnetization Transfer Asymmetry for Imaging Myelin of Rat Brain at High Field [J] . Jae-WoongKim, JiyeChoi, JanggeunCho, BioMed research international . 2015,第2期

机译：磁化传递不对称性对高强度大鼠脑髓磷脂成像的敏感性和特异性的初步观察
3. Amide proton transfer imaging with improved robustness to magnetic field inhomogeneity and magnetization transfer asymmetry using saturation with frequency alternating RF irradiation [J] . Rachel Scheidegger, Elena Vinogradov, David C. Alsop Magnetic Resonance in Medicine . 2011,第5期

机译：酰胺质子转移成像具有增强的抗磁场不均匀性和磁化转移不对称性的鲁棒性（使用饱和度和频率交替的RF辐射）
4. Study of pH-sensitive magnetization transfer imaging in hyperacute brain infarction using a clinical 1.5 Tesla scanner [C] . Lin Taifeng, Wei Maobin, Xiao Gang, 2012 ICME International Conference on Complex Medical Engineering . 2012

机译：使用临床1.5 Tesla扫描仪研究超急性脑梗死的pH敏感磁化转移成像
5. The quest for a myelin specific magnetic resonance marker of multiple sclerosis pathology: Myelin water imaging. [D] . Laule, Cornelia. 2005

机译：对多发性硬化症病理的髓磷脂特异性磁共振标记物的追求：髓磷脂水成像。
6. Amide proton transfer imaging with improved robustness to magnetic field inhomogeneity and magnetization transfer asymmetry using Saturation with Frequency Alternating RF Irradiation (SAFARI) [O] . Rachel Scheidegger, Elena Vinogradov, David C Alsop -1

机译：酰胺质子转移成像其利用饱和度与频率交流射频照射（Safari）改善磁场不均匀性和磁化转印不对称的鲁棒性。
7. Preliminary Observations on Sensitivity and Specificity of Magnetization Transfer Asymmetry for Imaging Myelin of Rat Brain at High Field [O] . Jae-Woong Kim, Jiye Choi, Janggeun Cho, 2015

机译：初步观察磁化转移不对称性对大鼠大鼠大鼠髓鞘的敏感性和特异性

Preliminary Observations on Sensitivity and Specificity of Magnetization Transfer Asymmetry for Imaging Myelin of Rat Brain at High Field

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