Abstract #2666

Distribution-controlled and optimally spread non-Cartesian sampling curves for accelerated in vivo brain imaging at 7 Tesla

Carole Lazarus¹, Pierre Weiss², Loubna El Gueddari¹, Franck Mauconduit³, Alexandre Vignaud⁴, and Philippe Ciuciu¹

¹CEA/NeuroSpin - INRIA/Parietal, Gif-sur-Yvette, France, ²CNRS - ITAV, Toulouse, France, ³Siemens Healthineers, Saint-Denis, France, ⁴CEA/NeuroSpin/UNIRS/METRIC, Gif-sur-Yvette, France

This work reports the use of new non-Cartesian k-space trajectories whose improved efficiency allows to significantly reduce MR scan time with minimum deterioration of image quality. Instead of using simple geometrical patterns, we introduce an approach inspired from stippling techniques, which automatically designs optimized sampling patterns along any distribution by taking full advantage of the hardware capabilities. Our strategy leads to drastically accelerated acquisitions, as demonstrated by our experimental results at 7T on in vivo human brains. We compare our method to widely-used non-Cartesian trajectories (spiral,radial) and demonstrate its superiority regarding image quality and robustness to system imperfections.

This abstract and the presentation materials are available to members only; a login is required.

Join Here