Compressed quantitative MRI: Bloch response recovery through iterated projection

Author

Davies, Mike ; Puy, G. ; Vandergheynst, P. ; Wiaux, Y.

Author_Institution

Inst. for Digital Commun. (IDCom), Univ. of Edinburgh, Edinburgh, UK

fYear

2014

fDate

4-9 May 2014

Firstpage

6899

Lastpage

6903

Abstract

Inspired by the recently proposed Magnetic Resonance Fingerprinting technique, we develop a principled compressed sensing framework for quantitative MRI. The three key components are: a random pulse excitation sequence following the MRF technique; a random EPI subsampling strategy and an iterative projection algorithm that imposes consistency with the Bloch equations. We show that, as long as the excitation sequence possesses an appropriate form of persistent excitation, we are able to achieve accurate recovery of the proton density, T₁, T₂ and off-resonance maps simultaneously from a limited number of samples.

Keywords

biomedical MRI; compressed sensing; iterative methods; medical image processing; Bloch equations; Bloch response recovery; MRF technique; compressed quantitative MRI; compressed sensing framework; iterated projection; iterative projection algorithm; magnetic resonance fingerprinting technique; proton density; random EPI subsampling strategy; random pulse excitation sequence; Compressed sensing; Image sequences; Magnetic resonance imaging; Magnetization; Manifolds; Vectors; Bloch equations; Johnston-Linderstrauss embeddings; MRI; compressed sensing; manifolds;

fLanguage

English

Publisher

ieee

Conference_Titel

Acoustics, Speech and Signal Processing (ICASSP), 2014 IEEE International Conference on

Conference_Location

Florence

Type

conf

DOI

10.1109/ICASSP.2014.6854937

Filename

6854937