Proton spectroscopic imaging of the human prostate at 7 T

## Abstract Short echo spectroscopy is commonly used to minimize signal modulation due to J‐evolution of the cerebral amino acids. However, short echo acquisitions suffer from high sensitivity to macromolecules which make accurate baseline determination difficult. In this report, we describe implem

We performed proton magnetic resonance spectroscopic imaging (MRSI) at high magnetic field (4.1 T) to study N-acetylaspartate, creatine, and choline levels in the brains of normal control subjects and patients with intractable temporal lobe epilepsy. We compared the results of MRSI to those of other

## Abstract Magnetic resonance spectroscopic imaging (MRSI) has proven to be a powerful tool for the metabolic characterization of prostate cancer in patients before and following therapy. The metabolites that are of particular interest are citrate and choline because an increased choline‐to‐citrat

## Abstract ## Purpose: To determine the reproducibility of 3D proton magnetic resonance spectroscopic imaging (^1^H‐MRSI) of the human prostate in a multicenter setting at 1.5T. ## Materials and Methods: Fourteen subjects were measured twice with 3D point‐resolved spectroscopy (PRESS) ^1^H‐MRSI

## Abstract Magnetic susceptibility gradients caused by tissue/air interfaces lead to very short __T__~2~\* times in the human lung. These susceptibility gradients are dependent on the magnetic susceptibility of the respiratory gas and therefore should influence __T__~2~\* relaxation. In this work,