基于相位的血管输入函数:改进的动脉粥样硬化斑块定量动态对比增强磁共振成像
Phase-based vascular input function: Improved quantitative DCE-MRI of atherosclerotic plaques.
作者信息
van Hoof R H M, Hermeling E, Truijman M T B, van Oostenbrugge R J, Daemen J W H, van der Geest R J, van Orshoven N P, Schreuder A H, Backes W H, Daemen M J A P, Wildberger J E, Kooi M E
机构信息
Department of Radiology, Maastricht University Medical Center, Maastricht 6202 AZ, The Netherlands and CARIM School for Cardiovascular Diseases, Maastricht University, Maastricht 6200 MD, The Netherlands.
Department of Radiology, Maastricht University Medical Center, Maastricht 6202 AZ, The Netherlands; CARIM School for Cardiovascular Diseases, Maastricht University, Maastricht 6200 MD, The Netherlands; and Department of Clinical Neurophysiology, Maastricht University Medical Center, Maastricht 6202 AZ, The Netherlands.
出版信息
Med Phys. 2015 Aug;42(8):4619-28. doi: 10.1118/1.4924949.
PURPOSE
Quantitative pharmacokinetic modeling of dynamic contrast-enhanced (DCE)-MRI can be used to assess atherosclerotic plaque microvasculature, which is an important marker of plaque vulnerability. Purpose of the present study was (1) to compare magnitude- versus phase-based vascular input functions (m-VIF vs ph-VIF) used in pharmacokinetic modeling and (2) to perform model calculations and flow phantom experiments to gain more insight into the differences between m-VIF and ph-VIF.
METHODS
Population averaged m-VIF and ph-VIFs were acquired from 11 patients with carotid plaques and used for pharmacokinetic analysis in another 17 patients. Simulations, using the Bloch equations and the MRI scan geometry, and flow phantom experiments were performed to determine the effect of local blood velocity on the magnitude and phase signal enhancement.
RESULTS
Simulations and flow phantom experiments revealed that flow within the lumen can lead to severe underestimation of m-VIF, while this is not the case for the ph-VIF. In line, the peak concentration of the m-VIF is significantly lower than ph-VIF (p < 0.001), in vivo. Quantitative model parameters for m- and ph-VIF differed in absolute values but were moderate to strongly correlated with each other [K(trans) Spearman's ρ > 0.93 (p < 0.001) and vp Spearman's ρ > 0.58 (p < 0.05)].
CONCLUSIONS
m-VIF is strongly influenced by local blood velocity, which leads to underestimation of the contrast medium concentration. Therefore, it is advised to use ph-VIF for DCE-MRI analysis of carotid plaques for accurate quantification.
目的
动态对比增强(DCE)-MRI的定量药代动力学建模可用于评估动脉粥样硬化斑块的微血管系统,这是斑块易损性的一个重要标志物。本研究的目的是:(1)比较药代动力学建模中基于幅度与基于相位的血管输入函数(m-VIF与ph-VIF);(2)进行模型计算和血流模体实验,以更深入了解m-VIF和ph-VIF之间的差异。
方法
从11例颈动脉斑块患者中获取群体平均m-VIF和ph-VIF,并用于另外17例患者的药代动力学分析。利用布洛赫方程和MRI扫描几何结构进行模拟,并进行血流模体实验,以确定局部血流速度对幅度和相位信号增强的影响。
结果
模拟和血流模体实验表明,管腔内的血流可导致m-VIF严重低估,而ph-VIF则不然。同样,在体内,m-VIF的峰值浓度显著低于ph-VIF(p<0.001)。m-VIF和ph-VIF的定量模型参数绝对值不同,但彼此中度至高度相关[K(trans)斯皮尔曼相关系数ρ>0.93(p<0.001),vp斯皮尔曼相关系数ρ>0.58(p<0.05)]。
结论
m-VIF受局部血流速度的强烈影响,导致造影剂浓度低估。因此,建议在颈动脉斑块的DCE-MRI分析中使用ph-VIF进行准确量化。
Zotero 插件