Performing k-space variable density sampling is a popular way of reducing scanning time in Magnetic Resonance Imaging (MRI). Unfortunately, given a sampling trajectory, it is not clear how to traverse it using gradient waveforms. In this paper, we actually show that existing methods [1, 2] can yield large traversal time if the trajectory contains high curvature areas. Therefore, we consider here a new method for gradient waveform design which is based on the projection of unrealistic initial trajectory onto the set of hardware constraints. Next, we show on realistic simulations that this algorithm allows implementing variable density trajectories resulting from the piecewise linear solution of the Travelling Salesman Problem in a reasonable time. Finally, we demonstrate the application of this approach to 2D MRI reconstruction and 3D angiography in the mouse brain.
@article{arxiv.1502.06742,
title = {Variable density sampling based on physically plausible gradient waveform. Application to 3D MRI angiography},
author = {Nicolas Chauffert and Pierre Weiss and Marianne Boucher and Sébastien Mériaux and Philippe CIUCIU},
journal= {arXiv preprint arXiv:1502.06742},
year = {2015}
}
Comments
IEEE International Symposium on Biomedical Imaging (ISBI), Apr 2015, New-York, United States