Two-site reproducibility of cerebellar and brainstem neurochemical profiles with short-echo, single-voxel MRS at 3T.

Magn Reson Med 2015 May 19;73(5):1718-25. Epub 2014 Jun 19.

Center for Magnetic Resonance Research, Department of Radiology, University of Minnesota, Minneapolis, Minnesota, USA.

Purpose: To determine whether neurochemical concentrations obtained at two MRI sites using clinical 3T scanners can be pooled when a highly optimized, nonvendor short-echo, single-voxel proton MRS pulse sequence is used in conjunction with identical calibration and quantification procedures.

Methods: A modified semi-LASER sequence (TE = 28 ms) was used to acquire spectra from two brain regions (cerebellar vermis and pons) on two Siemens 3T scanners using the same B0 and B1 calibration protocols from two different cohorts of healthy volunteers (N = 24-33 per site) matched for age and body mass index. Spectra were quantified with LCModel using water scaling.

Results: The spectral quality was very consistent between the two sites and allowed reliable quantification of at least 13 metabolites in the vermis and pons compared with 3-5 metabolites in prior multisite magnetic resonance spectroscopy trials using vendor-provided sequences. The neurochemical profiles were nearly identical at the two sites and showed the feasibility to detect interindividual differences in the healthy brain.

Conclusion: Highly reproducible neurochemical profiles can be obtained on different clinical 3T scanners at different sites, provided that the same, optimized acquisition and analysis techniques are used. This will allow pooling of multisite data in clinical studies, which is particularly critical for rare neurological diseases.

Download full-text PDF

Source
http://dx.doi.org/10.1002/mrm.25295DOI Listing
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4272339PMC
May 2015
66 Reads

Publication Analysis

Top Keywords

neurochemical profiles
12
short-echo single-voxel
8
clinical scanners
8
vermis pons
8
body mass
4
mass spectra
4
age body
4
optimized acquisition
4
site matched
4
matched age
4
provided optimized
4
spectra quantified
4
water scalingresults
4
profiles clinical
4
scanners sites
4
lcmodel water
4
sites provided
4
quantified lcmodel
4
acquisition analysis
4
24-33 site
4

Similar Publications