Rowland Benjamin C, Liao Huijun, Adan Fatah, Mariano Laura, Irvine John, Lin Alexander P
Center for Clinical Spectroscopy, Department of Radiology, Brigham and Women's Hospital, Boston, MA.
Draper Laboratory, Cambridge, MA.
J Neuroimaging. 2017 Jan;27(1):23-28. doi: 10.1111/jon.12388. Epub 2016 Sep 7.
Averaging multiple repetitions to improve signal-to-noise ratio is common practice in magnetic resonance spectroscopy (MRS). However, temporal variations in scanner B0 due to motion or gradient heating may cause spectra to become misaligned, broadening and distorting peaks and impacting on processing and quantification. We present a comparison using in vivo data of different methods for correcting these errors.
Three different correction methods were applied to 53 brain scans: residual water peak alignment, creatine fitting, and spectral registration. In 32 of 53 subjects, diffusion tensor imaging (DTI) was acquired prior to the MRS scan. We compared the resulting linewidths to find the most effective technique. In addition, the impact on metabolite concentration estimates was evaluated.
MRS data acquired after DTI imaging exhibited a frequency drift four times higher than data without DTI, resulting in changes to metabolite concentrations, particularly glutamate/glutamine. All three correction methods produced significantly improved linewidths relative to uncorrected data, with spectral registration performing best by a small margin.
Frequency correction is an important step in processing MRS data, significantly impacting metabolite quantification, particularly after echo-planar imaging that often occurs with MRS scans in clinical studies. Spectral registration proved most effective at frequency correction.
在磁共振波谱(MRS)中,对多次重复扫描进行平均以提高信噪比是常见做法。然而,由于运动或梯度加热导致的扫描仪B0的时间变化可能会使波谱变得未对齐,使峰变宽和扭曲,并影响处理和定量分析。我们使用体内数据对不同的误差校正方法进行了比较。
对53次脑部扫描应用了三种不同的校正方法:残余水峰对齐、肌酸拟合和波谱配准。在53名受试者中的32名中,在MRS扫描之前进行了扩散张量成像(DTI)。我们比较了所得的线宽以找出最有效的技术。此外,还评估了对代谢物浓度估计的影响。
DTI成像后采集的MRS数据显示出的频率漂移比未进行DTI的数据高四倍,导致代谢物浓度发生变化,尤其是谷氨酸/谷氨酰胺。相对于未校正的数据,所有三种校正方法均使线宽得到了显著改善,其中波谱配准的效果略胜一筹。
频率校正是处理MRS数据的重要步骤,对代谢物定量有显著影响,特别是在临床研究中MRS扫描常伴随的回波平面成像之后。波谱配准在频率校正方面被证明是最有效的。
