摘要
PurposeThe purpose of this study was to investigate the diffusional transport of contrast agent and its effects on kinetic modeling of dynamic contrast enhanced (DCE) images. MethodsWe performed simulations of our diffusion-compensated model and compared these results to human intracranial aneurysms (IAs). We derive an easy-to-use parameterization of diffusional effects that can provide an accurate estimate of diffusion corrected contrast agent leakage rates (k(trans)). Finally, we performed re-ansalysis of an existing data set to determine whether diffusion-corrected kinetic parameters improve the identification of high-risk IAs, thereby providing a new MRI-based imaging metric of IA stability based on wall integrity. ResultsProbability distributions of simulated versus measured data show contrast leakage away from the aneurysm wall. Parameterization of diffusional effects on k(trans) showed high correlation with long-chain methods in both surrounding tissue and near the aneurysm wall (r(2)=0.91 and r(2)=0.90, respectively). Finally, size, k(trans), and (ktrans-kDCtrans) showed significant univariate relationships with rupture risk (P<0.05). ConclusionsWe report the first evidence of diffusion-compensated permeability modeling in intracranial aneurysms and propose a parameterization of diffusional effects on k(trans). Furthermore, a comparison of measured versus simulated data suggests that contrast leakage occurs across the aneurysm wall. Magn Reson Med 78:2388-2398, 2017.
- 出版日期2017-12
- 单位西北大学