3D B1+ corrected simultaneous myocardial T1 and T1ρ mapping with subject‐specific respiratory motion correction and water‐fat separation

Abstract: PurposeTo develop a 3D free‐breathing cardiac multi‐parametric mapping framework that is robust to confounders of respiratory motion, fat, and B1+ inhomogeneities and validate it for joint myocardial T1 and T1ρ mapping at 3T.MethodsAn electrocardiogram‐triggered sequence with dual‐echo Dixon readout was developed, where nine cardiac cycles were repeatedly acquired with inversion recovery and T1ρ preparation pulses for T1 and T1ρ sensitization. A subject‐specific respiratory motion model relating the 1D diaphra… Show more