Evidence of Incoherent Fluid Flow in the Human Brain from Multidimensional MRI

Abstract Purpose The human brain contains multiple fluids, including blood, cerebrospinal fluid (CSF), and tissue water. While compartmental models have been used to examine microvascular blood perfusion using intravoxel incoherent motion (IVIM), evidence on incoherent flows of CSF is emerging. This study aims to develop in vivo multi-dimensional MRI methods to investigate potential contributions of CSF in the IVIM regime. Method T 1 -Diffusion ( T 1 -D ) and T 2 -Diffusion ( T 2 -D ) MRI data were acquired from 10 healthy subjects to investigate the relaxivity and diffusion signatures of incoherent fluid flows in the brain. Based on the T 1 -D and T 2 -D results, T 1 /T 2 selective IVIM protocols were developed to map incoherent CSF flows in the human brains. Results T 1 -D and T 2 -D MRI suggested incoherent CSF flow in the human brain subarachnoid space. Results from four different relaxation selective IVIM methods further supported incoherent CSF flows in these regions. Conclusion We have shown the feasibility of using T 1 -D and T 2 -D MRI within the low b-value regime to probe the heterogeneity of IVIM components. Designed based on the 2D MRI spectra, relaxation selective 1D IVIM acquisition can be obtained within clinically feasible timeframe.