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Literature DB >> 9840825

Automated spectral analysis II: application of wavelet shrinkage for characterization of non-parameterized signals.

Abstract

An iterative method for differentiating between known resonances and uncharacterized baseline contributions in MR spectra is described. The method alternates parametric modeling, using a priori knowledge of spectral parameters, with non-parametric characterization of remaining signal components, using wavelet shrinkage and denoising. Rapid convergence of the iterative method is demonstrated, and examples are shown for analysis of simulated data and an in vivo 1H spectrum from the brain. Results show good separation between metabolite signals and strong baseline contributions.

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Year: 1998 PMID： 9840825 DOI： 10.1002/mrm.1910400606

Source DB: PubMed Journal: Magn Reson Med ISSN： 0740-3194 Impact factor: 4.668

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Cited

26 in total

Automated spectral analysis II: application of wavelet shrinkage for characterization of non-parameterized signals.

1. Whole-Brain N-Acetylaspartate Concentration Is Preserved during Mild Hypercapnia Challenge.

2. Fast quantification of proton magnetic resonance spectroscopic imaging with artificial neural networks.

3. GAVA: spectral simulation for in vivo MRS applications.

4. Robust analysis of short echo time (1)H MRSI of human brain.

5. Soft constraints in nonlinear spectral fitting with regularized lineshape deconvolution.

Review 6. Quantification in magnetic resonance spectroscopy based on semi-parametric approaches.

7. Comparison of spectral fitting methods for overlapping J-coupled metabolite resonances.

Review 8. Quantitative proton magnetic resonance spectroscopy and spectroscopic imaging of the brain: a didactic review.

9. Quantifying global-brain metabolite level changes with whole-head proton MR spectroscopy at 3T.

10. Whole brain neuronal abnormalities in focal epilepsy quantified with proton MR spectroscopy.