3D MRI and angiography of human extremities using a local gradient coil

Sodium MR imaging is considered to provide clinically important information about the human body that is not achievable by hydrogen-based approaches. However, due to the low natural abundance in biological tissues, sodium signals usually lead to low spatial resolution, low SNR, and long acquisition

## Abstract ## Purpose: To assess the diagnostic performance of gadobenate dimeglumine‐enhanced 3D gradient echo (3D‐GRE) magnetic resonance imaging (MRI) for the detection of hepatic hypovascular metastases. ## Materials and Methods: We retrospectively analyzed the initial radiologic reports of

## Abstract Herein is presented a method for suppressing the magnetic resonance signal to a controlled depth by applying a spatially heterogeneous spoiler field between the slice‐select and readout pulses. Eliminating the signal from near‐surface regions allows one to shrink the field of view witho

## Abstract Images of hyperpolarized ^3^He were acquired during breath‐hold in four healthy volunteers with the use of an optimized 3D gradient‐echo sequence. The images were compared with existing 2D gradient‐echo methods. The average SNR from a 13‐mm‐thick slice in the peripheral lung was 1.4 tim

## Abstract We present a new technique for segmentation of skull and scalp in T~1~‐weighted magnetic resonance images (MRIs) of the human head. Our method uses mathematical morphological operations to generate realistic models of the skull, scalp, and brain that are suitable for electroencephalogra