动态磁敏感对比增强磁共振成像测量健康受试者局部示踪剂延迟对脑血流量的影响:与15O-PET的比较
Effect of regional tracer delay on CBF in healthy subjects measured with dynamic susceptibility contrast-enhanced MRI: comparison with 15O-PET.
作者信息
Ibaraki Masanobu, Shimosegawa Eku, Toyoshima Hideto, Ishigame Keiichi, Ito Hiroshi, Takahashi Kazuhiro, Miura Shuichi, Kanno Iwao
机构信息
Department of Radiology and Nuclear Medicine, Akita Research Institute of Brain and Blood Vessels, 6-10 Senshu-Kubota Machi, Akita 010-0874, Japan.
出版信息
Magn Reson Med Sci. 2005;4(1):27-34. doi: 10.2463/mrms.4.27.
PURPOSE
Deconvolution based on truncated singular value decomposition (SVD deconvolution) is a promising method for measuring cerebral blood flow (CBF) with dynamic susceptibility contrast-enhanced magnetic resonance imaging (DSC-MRI), but it has proved extremely sensitive to tracer delay. The purpose of this study was to investigate the effect of regional tracer delay on CBF determined by SVD deconvolution (SVD-CBF). SVD-CBFs with and without correction for the delay were compared with CBF measured by positron emission tomography (PET-CBF), which is regarded as the gold standard for quantification of CBF.
METHODS
Perfusion MRI and PET were performed on seven healthy men. In the PET study, the CBF image was obtained with bolus injection of H2(15)O and continuous arterial sampling. In the DSC-MRI study with bolus injection of Gd-based contrast agent, dynamic perfusion data were obtained with a 1.5T scanner at 1-s intervals by means of gradient-echo echo-planar imaging. CBF was determined by the SVD deconvolution method with and without correction for the tracer delay. Region-of-interest measurements were obtained in the gray matter (cerebral cortex in the middle cerebral artery territory) and white matter (centrum semiovale).
RESULTS
Tracer delay was significantly longer in white matter than in gray matter (1.45+/-0.61 s vs. 0.59+/-0.35 s, P<0.01). Correction for the delay increased SVD-CBF in the white matter and consequently reduced the gray-to-white SVD-CBF ratio. The uncorrected gray-to-white SVD-CBF ratio was significantly larger than that of PET-CBF (3.33+/-0.66 vs. 2.54+/-0.49, P<0.01). However, the gray-to-white delay-corrected SVD-CBF ratio did not differ significantly from that of PET-CBF (2.83+/-0.31 vs. 2.54+/-0.49, P=0.10).
CONCLUSION
The tracer delay in DSC-MRI causes errors in CBF estimates, even in healthy persons, and therefore should be corrected for when delay-sensitive deconvolution, such as SVD deconvolution, is used.
目的
基于截断奇异值分解的去卷积(奇异值分解去卷积)是一种利用动态磁敏感对比增强磁共振成像(DSC-MRI)测量脑血流量(CBF)的有前景的方法,但已证明其对示踪剂延迟极其敏感。本研究的目的是探讨区域示踪剂延迟对通过奇异值分解去卷积(SVD-CBF)测定的CBF的影响。将校正和未校正延迟的SVD-CBF与通过正电子发射断层扫描测量的CBF(PET-CBF)进行比较,PET-CBF被视为CBF定量的金标准。
方法
对7名健康男性进行灌注MRI和PET检查。在PET研究中,通过团注H2(15)O和连续动脉采样获得CBF图像。在团注基于钆的造影剂的DSC-MRI研究中,使用1.5T扫描仪通过梯度回波平面回波成像以1秒的间隔获得动态灌注数据。通过奇异值分解去卷积方法在校正和未校正示踪剂延迟的情况下测定CBF。在灰质(大脑中动脉区域的大脑皮质)和白质(半卵圆中心)中进行感兴趣区域测量。
结果
白质中的示踪剂延迟明显长于灰质(1.45±0.61秒对(0.59±0.35)秒,P<0.01)。延迟校正增加了白质中的SVD-CBF,从而降低了灰质与白质的SVD-CBF比值。未校正的灰质与白质SVD-CBF比值明显大于PET-CBF的比值(3.33±0.66对2.54±0.49,P<0.01)。然而,灰质与白质延迟校正后的SVD-CBF比值与PET-CBF的比值无显著差异(2.83±0.31对2.54±0.49,P = 0.10)。
结论
DSC-MRI中的示踪剂延迟即使在健康人中也会导致CBF估计值出现误差,因此在使用对延迟敏感的去卷积方法(如奇异值分解去卷积)时应进行校正。
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