Comparison of methods for reduction of lipid contamination for in vivo proton MR spectroscopic imaging of the brain

## Abstract ## Purpose To investigate if in vivo localized proton magnetic resonance spectroscopy (MRS) can detect putative metabolic changes in the irradiated rat brain and quantitatively measure brain metabolite changes in this model. ## Materials and Methods A total of 20 adult male Fischer 3

Partial volume effects with cerebrospinal fluid (CSF), if uncorrected, can lead to underestimation of metabolite concentrations in quantitative proton magnetic resonance spectroscopic imaging (MRSI) of the brain. A rapid method for the correction of CSF partial volume effects is described based on s

## Abstract ## Purpose: To examine the long‐term consequences of manganese exposure due to the use of manganese‐enhanced magnetic resonance imaging (MEMRI) in a model of closed head injury, the fluid‐percussion injury (FPI) model. ## Materials and Methods: Two groups of adult male Wistar rats (_

A magnetic resonance imaging pulse sequence featuring a short echo time of 3.6 ms is described and used clinically for in vivo imaging of sodium-23 in the human head. In living tissues, sodium exhibits at least two transverse relaxation constants, namely, (a) a short component T2s = 0.7-3.0 ms and (

## Abstract For spectroscopic imaging studies of the mouse brain, it is critical to obtain optimal __B__~0~ homogeneity over a large region of interest (ROI). In this paper, a fully automated shimming method for mouse brain at 9.4 T, based on __B__~0~ mapping, is described. __B__~0~ maps were obtai