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Improved velocity‐selective‐inversion arterial spin labeling for cerebral blood flow mapping with 3D acquisition

Dapeng Liu, Feng Xu, Wenbo Li, Peter C. van Zijl, Doris Lin, Qin Qin

2020Magnetic Resonance in Medicine30 citationsDOIOpen Access PDF

Abstract

PURPOSE: To further optimize the velocity-selective arterial spin labeling (VSASL) sequence utilizing a Fourier-transform based velocity-selective inversion (FT-VSI) pulse train, and to evaluate its utility for 3D mapping of cerebral blood flow (CBF) with a gradient- and spin-echo (GRASE) readout. METHODS: field inhomogeneities for FT-VSI pulse trains with block and composite refocusing pulses. Second, the choices of the post-labeling delay (PLD) for FT-VSI prepared 3D VSASL were evaluated for the sensitivity to perfusion signal. The study was conducted among a young-age and a middle-age group at 3T. Both signal-to-noise ratio (SNR) and CBF were quantitatively compared with pseudo-continuous ASL (PCASL). The optimized 3D VSI-ASL was also qualitatively compared with PCASL in a whole-brain coverage among two healthy volunteers and a brain tumor patient. RESULTS: field inhomogeneities than block pulses. 3D VSASL images with FT-VSI preparation were acquired over a range of PLDs and PLD = 1.2 s was selected for its higher perfusion signal. FT-VSI labeling produced quantitative CBF maps with 27% higher SNR in gray matter compared to PCASL. 3D whole-brain CBF mapping using VSI-ASL were comparable to the corresponding PCASL results. CONCLUSION: FT-VSI with 3D-GRASE readout was successfully implemented and showed higher sensitivity to perfusion signal than PCASL for both young and middle-aged healthy volunteers.

Topics & Concepts

Imaging phantomCerebral blood flowArterial spin labelingNuclear magnetic resonancePulse sequencePulse (music)Flip angleSIGNAL (programming language)Sensitivity (control systems)Biomedical engineeringPhysicsMaterials scienceComputer scienceMagnetic resonance imagingMedicineOpticsRadiologyElectronic engineeringAnesthesiaEngineeringDetectorProgramming languageAdvanced MRI Techniques and ApplicationsCerebrovascular and Carotid Artery DiseasesFunctional Brain Connectivity Studies