Incorporating bipolar, flow sensitizing gradients into a magnetic resonance fingerprinting (MRF) pulse sequence permits quantification of vessel flow along with static tissue T1 and T2 relaxation times. This abstract demonstrates quantification of T1, T2 and multi-directional flow with a single, volumetric, flow-encoded MRF acquisition with whole brain coverage. Comparison of T1, T2, and flow measurements with inversion recovery, spin-echo, and phase contrast techniques revealed good agreement between flow-encoded MRF and gold-standard methods. The capacity to obtain volumetric relaxometry and flow measurements with a single acquisition can support efficient, comprehensive assessments of cerebral blood flow and tissue integrity.
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