Selective microstructure-size filters for non-invasive quantitative MRI

MILENA CAPIGLIONI, ANALÍA ZWICK, PABLO JIMENEZ; GONZALO AGUSTÍN ÁLVAREZ

Proc. Intl. Soc. Mag. Reson. Med.

International Society for Magnetic Resonance in Medicine

Año: 2021 vol. 29 p. 2036 - 2036

1545-4428

Extracting quantitative microstructure information of living-tissue by non-invasive imaging is an outstanding challenge for understanding disease mechanisms. We introduce a method to make selectively images of microstructure-sizes by probing molecule diffusion with MRI. It relies on designing dynamical control of nuclear spins to sense magnetization ?decay-shifts? rather than the commonly used spin-echo decay-rates. The feasibility and performance of the method are illustrated with proof-of-principle experiments and simulations on typical size-distributions of white-matter in the mouse brain. These results position spin-echo decay-shifts as a promising MRI tool to perform non-invasive histology without assuming a microstructure distribution model.