小脑的体内定量1H磁共振波谱分析以及通过模拟不同噪声水平和光谱分辨率评估定量再现性。

In vivo quantitative 1H MRS of cerebellum and evaluation of quantitation reproducibility by simulation of different levels of noise and spectral resolution.

作者信息

Macrì Maria Antonietta, Garreffa Girolamo, Giove Federico, Guardati Manuela, Ambrosini Anna, Colonnese Claudio, Maraviglia Bruno

机构信息

"Enrico Fermi" Center, 00185 Rome, Italy.

出版信息

Magn Reson Imaging. 2004 Dec;22(10):1385-93. doi: 10.1016/j.mri.2004.10.021.

DOI:10.1016/j.mri.2004.10.021

PMID:15707788

Abstract

A quantitative analysis of cerebellar metabolites in normal subjects has been performed by proton MR spectroscopy (MRS) with relaxation time correction. Quantitation was carried out in seven healthy human subjects with the well-established LCModel program. The prior knowledge utilized for quantitation was obtained from solutions containing the major brain metabolites and MRS investigated under the same experimental conditions. The tissue water signal was used as an internal standard for the in vivo studies. Both in vitro (for the prior knowledge template) and in vivo data were acquired separately at 1.5 T by PRESS sequence (TR, 1500 ms; TE, 30 ms). The absolute concentration of main cerebellar metabolites was corrected for relaxation time effects. Different noise and line broadening conditions were considered and simulated in the spectral processing in order to evaluate the effect of spectral quality on the concentration estimates.

摘要

通过质子磁共振波谱（MRS）并进行弛豫时间校正，对正常受试者的小脑代谢物进行了定量分析。使用成熟的LCModel程序对7名健康人类受试者进行了定量分析。用于定量分析的先验知识来自含有主要脑代谢物的溶液，并在相同实验条件下进行MRS研究获得。在体内研究中，组织水信号用作内标。体外（用于先验知识模板）和体内数据均通过PRESS序列（TR，1500 ms；TE，30 ms）在1.5 T下分别采集。对主要小脑代谢物的绝对浓度进行了弛豫时间效应校正。在光谱处理中考虑并模拟了不同的噪声和线展宽条件，以评估光谱质量对浓度估计的影响。

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小脑的体内定量1H磁共振波谱分析以及通过模拟不同噪声水平和光谱分辨率评估定量再现性。

In vivo quantitative 1H MRS of cerebellum and evaluation of quantitation reproducibility by simulation of different levels of noise and spectral resolution.

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