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Literature DB >> 20490362

ROBUST MAXIMUM LIKELIHOOD ESTIMATION IN Q-SPACE MRI.

B A Landman¹, J A D Farrell, S A Smith, P A Calabresi, P C M van Zijl, J L Prince.

Abstract

Q-space imaging is an emerging diffusion weighted MR imaging technique to estimate molecular diffusion probability density functions (PDF's) without the need to assume a Gaussian distribution. We present a robust M-estimator, Q-space Estimation by Maximizing Rician Likelihood (QEMRL), for diffusion PDF's based on maximum likelihood. PDF's are modeled by constrained Gaussian mixtures. In QEMRL, robust likelihood measures mitigate the impacts of imaging artifacts. In simulation and in vivo human spinal cord, the method improves reliability of estimated PDF's and increases tissue contrast. QEMRL enables more detailed exploration of the PDF properties than prior approaches and may allow acquisitions at higher spatial resolution.

Entities: Species

Year: 2008 PMID： 20490362 PMCID： PMC2872926 DOI： 10.1109/isbi.2008.4541134

Source DB: PubMed Journal: Proc IEEE Int Symp Biomed Imaging ISSN： 1945-7928

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References

5 in total

ROBUST MAXIMUM LIKELIHOOD ESTIMATION IN Q-SPACE MRI.

1. Maximum likelihood estimation of signal amplitude and noise variance from MR data.

Review 2. High b-value q-space analyzed diffusion-weighted MRS and MRI in neuronal tissues - a technical review.

3. Biexponential diffusion attenuation in various states of brain tissue: implications for diffusion-weighted imaging.

4. Diffusion Tensor Estimation by Maximizing Rician Likelihood.

5. The Rician distribution of noisy MRI data.