Automated Proton Spectroscopic Image Processing

## Abstract Automated formation of MR spectroscopic images (MRSI) is necessary before routine application of these methods is possible for __in vivo__ studies; however, this task is complicated by the presence of spatially dependent instrumental distortions and the complex nature of the MR spectrum

A machine vision system for diagnostic histopathology sion can be extracted from histopathologically seemingly normal offers five modules: 1) for the automated detection of regions of tissues [3][4][5]. abnormality in histopathologic sections; 2) for fully automated image Quantitative imaging prov

## Abstract For many clinical applications of proton MR spectroscopic imaging (MRSI) of the brain, diagnostic assessment is limited by insufficient coverage provided by single‐ or multislice acquisition methods as well as by the use of volume preselection methods. Additionally, traditional spectral

## Abstract A new fast spectroscopic imaging (SI) method is presented which is based on spatial localization by the fast MRI method of rapid acquisition with relaxation enhancement (RARE) and encoding of the chemical shift information by shifting the position of a refocusing 180° pulse in a series