Three-Dimensional Spectroscopic Imaging with Time-Varying Gradients

A novel generalized processing system is described whereby, using time-varying gradients, simultaneous data acquisition can be provided for all points in a volume. This is in sharp distinction to the sensitive-point method where only the null region is imaged. It is shown that time-varying gradients

A simple gradient-echo technique is described which uses produce an echo. The data-sampling window extends from T/2 to 3T/2. For 3D imaging, this pulse sequence is repeated large oscillating field gradients to produce three-dimensional NMR images of small (20 mm) moulded plastic and rubber in the pr

## Abstract The application of 3D radial sampling of the free‐induction decay to proton ultrashort echo‐time (UTE) imaging is reported. The effects of __T__~2~ decay during signal acquisition on the 3D radial point‐spread function are analyzed and compared to 2D radial and 1D sampling. It is found

## Abstract Reconstruction of high‐quality MR images requires precise knowledge of the dynamic gradient magnetic fields used to perform spatial encoding. System delays and eddy currents can perturb the gradient fields in both time and space and significantly degrade the image quality for acquisitio

Complex tablets with zero-order drug release characteristics were fabricated using three-dimensional printing processes. The matrix tablets exhibited material gradients in radial direction and had drug-free release-barrier layers on both bases. The content of model drug acetaminophen incorporated in

## Abstract A strongly T2\*‐weighted, three‐dimensional (3D) PSIF (time‐reversed FISP (fast imaging with steady‐state precession)) gradient‐echo magnetic resonance (MR) sequence, with postprocessing of the 3D data set with a maximum‐intensity projection (MIP) algorithm, produced x‐ray myelography–e