Kämpe Robin, Lind Emelie, Ståhlberg Freddy, van Westen Danielle, Knutsson Linda, Wirestam Ronnie
Department of Medical Radiation Physics, Lund University, Lund, Sweden.
Diagnostic Radiology, Department of Clinical Sciences Lund, Lund University, Lund, Sweden.
Clin Physiol Funct Imaging. 2017 Mar;37(2):211-220. doi: 10.1111/cpf.12288. Epub 2015 Oct 22.
Global oxygen extraction fraction (OEF) and cerebral metabolic rate of oxygen (CMRO ) were quantified in a test-retest study. Cerebral blood flow (CBF) data, required for CMRO estimation, were obtained using dynamic susceptibility contrast MRI (DSC-MRI). OEF and CMRO were quantified using two separate data sets, that is, conventional high-resolution (HR) gradient echo (GRE) phase maps as well as echo planar imaging (EPI) phase maps taken from the baseline (precontrast) part of the DSC-MRI time series. The EPI phase data were included to elucidate whether an extra HR-GRE scan is needed to obtain information about OEF and CMRO , or if this information can be extracted from the DSC-MRI experiment only.
Twenty healthy volunteers were scanned using 3 T MRI on two occasions. Oxygen saturation levels were obtained from phase data measured in the great cerebral vein of Galen, based on HR-GRE as well as EPI phase maps. In combination with DSC-MRI CBF, this allowed for calculation of OEF and CMRO .
High-resolution-gradient echo- and EPI-based phase images resulted in similar OEF spread and repeatability, with coefficients of variation/intraclass correlation coefficients of 0·26/0·95 and 0·23/0·81, respectively. Absolute OEF values (HR-GRE: 0·40 ± 0·11, EPI: 0·35 ± 0·08) were consistent with literature data. CMRO showed similar repeatability, somewhat increased spread and reasonable absolute values (HR-GRE: 3·23 ± 1·26 ml O /100 g min , EPI: 2·79 ± 0·89 ml O /100 g min ).
In general, the results obtained by HR-GRE and EPI showed comparable characteristics. The EPI methodology could potentially be improved using a slightly modified DSC-MRI protocol (e.g. with regard to spatial resolution and slice gap).
在一项重测研究中对全球氧摄取分数(OEF)和脑氧代谢率(CMRO₂)进行了量化。使用动态磁敏感对比增强磁共振成像(DSC-MRI)获取估计CMRO₂所需的脑血流量(CBF)数据。OEF和CMRO₂使用两个单独的数据集进行量化,即传统的高分辨率(HR)梯度回波(GRE)相位图以及从DSC-MRI时间序列的基线(对比前)部分获取的回波平面成像(EPI)相位图。纳入EPI相位数据是为了阐明是否需要额外的HR-GRE扫描来获取有关OEF和CMRO₂的信息,或者该信息是否仅可从DSC-MRI实验中提取。
20名健康志愿者分两次接受3T磁共振成像扫描。基于HR-GRE以及EPI相位图,从大脑大静脉测量的相位数据中获取氧饱和度水平。结合DSC-MRI的CBF,这使得能够计算OEF和CMRO₂。
基于高分辨率梯度回波和EPI的相位图像导致类似的OEF分布和可重复性,变异系数/组内相关系数分别为0·26/0·95和0·23/0·81。绝对OEF值(HR-GRE:0·40 ± 0·11,EPI:0·35 ± 0·08)与文献数据一致。CMRO₂显示出类似的可重复性,分布略有增加且绝对值合理(HR-GRE:3·23 ± 1·26 ml O₂/100 g min,EPI:2·79 ± 0·89 ml O₂/100 g min)。
总体而言,HR-GRE和EPI获得的结果显示出可比的特征。使用略有修改的DSC-MRI方案(例如在空间分辨率和层间距方面)可能会改进EPI方法。
