A novel acquisition–reconstruction algorithm for surface magnetic resonance imaging

We introduce a new magnetic field geometry, B x (x, y) ϭ g y y cos(q x x), to spatially encode magnetic resonance imaging (MRI). The field is called the PERL field since it is PERiodic in x and Linear in y. A technique is proposed to acquire two-dimensional (2D) data without switching the encoding f

## Abstract ## Purpose To improve myocardial perfusion magnetic resonance imaging (MRI) by reconstructing undersampled radial data with a spatiotemporal constrained reconstruction method (STCR). ## Materials and Methods The STCR method jointly reconstructs all of the time‐frames for each slice.

## Abstract A digital‐electronic reconstruction system for MRI has been designed and demonstrated. The system is capable of reconstructing a 128 × 128 pixel image from complex‐valued data in approximately 8 ms (122 frames per second) or a 256 × 256 pixel image in 32 ms (30 frames per second) using

The construction of two novel mult-segment (MS) resonators are described. The signal-to-noise ratio (SNR) and B1 homogeneity of the coils are compared with that of a surface coil and a standard quadrature head coil. The images obtained with the MS designs revealed a surface coil-like fall-off in sig