Optimal classification of long echo time in vivo magnetic resonance spectra in the detection of recurrent brain tumors

## Abstract Automated pattern recognition techniques are needed to help radiologists categorize MRS data of brain tumors according to histological type and grade. A major question is whether a computer program “trained” on spectra from one hospital will be able to classify those from another, parti

## Abstract A single‐voxel proton magnetic resonance spectroscopy (^1^H‐MRS) method is described that enables the in vivo measurement of endogenous brain glycine (Gly) levels in human subjects. At 4.0 T, TE‐averaging ^1^H‐MRS dramatically attenuates the overlapping __myo__‐inositol (mI) resonances

## Abstract ^1^H MRS is becoming an accurate, non‐invasive technique for initial examination of brain masses. We investigated if the combination of single‐voxel ^1^H MRS at 1.5 T at two different (__TE__s), short __TE__ (PRESS or STEAM, 20–32 ms) and long __TE__ (PRESS, 135–136 ms), improves the cl

## Abstract ## Purpose: To examine the precision of glutamate detection using a very short echo time (TE) phase rotation STEAM (PR‐STEAM) sequence. ## Materials and Methods: Spectrosopic data were acquired from the anterior cingulate gyrus in nine healthy adults using 6.5‐msec TE PR‐STEAM, 40‐ms

Localized in vivo 1 H NMR spectroscopy was performed with 2-ms echo time in the rat brain at 9.4 T. Frequency domain analysis with LCModel showed that the in vivo spectra can be explained by 18 metabolite model solution spectra and a highly structured background, which was attributed to resonances w

## Abstract A single‐voxel proton magnetic resonance spectroscopy (^1^H‐MRS) filtering strategy for in vivo detection of serine (Ser) in human brain at 7T is proposed. Spectral difference of coupled resonances arising from different subecho times of triple refocusing at a constant total echo time (