Abstract #3749

Effects of spatial encoding strategies on 2D and 3D magnetic resonance fingerprinting

Matteo Cencini^1,2, Pedro A Gómez³, Mohammad Golbabaee ⁴, Rolf F Schulte⁵, Giada Fallo^1,2, Luca Peretti^1,2, Michela Tosetti^2,6, Bjoern H Menze³, and Guido Buonincontri^2,6

¹University of Pisa, Pisa, Italy, ²Imago7 Foundation, Pisa, Italy, ³Technical University of Munich, Munich, Germany, ⁴University of Bath, Bath, United Kingdom, ⁵GE Healthcare, Munich, Germany, ⁶IRCCS Stella Maris, Pisa, Italy

Transient-state imaging techniques such as MR Fingerprinting allow for simultaneous quantification of tissue properties by using variable acquisition parameters in conjunction with undersampled non-Cartesian trajectories. Several implementations exist in literature, relying on two- or three-dimensional sampling readouts. Here, we studied the effect of the spatial encoding on quantification. In addition, an evaluation of the impact on parametric maps of anti-aliasing techniques (k-space weighted image constrast) was performed, both in vitro and in vivo.

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