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Multidimensional correlation spectroscopic imaging of exponential decays: From theoretical principles to in vivo human applications

Daeun Kim, Jessica L. Wisnowski, Christopher Nguyen, Justin P. Haldar

2020NMR in Biomedicine33 citationsDOIOpen Access PDF

Abstract

Multiexponential modeling of relaxation or diffusion MR signal decays is a popular approach for estimating and spatially mapping different microstructural tissue compartments. While this approach can be quite powerful, it is also limited by the fact that one-dimensional multiexponential modeling is an ill-posed inverse problem with substantial ambiguities. In this article, we present an overview of a recent multidimensional correlation spectroscopic imaging approach to this problem. This approach helps to alleviate ill-posedness by making advantageous use of multidimensional contrast encoding (e.g., 2D diffusion-relaxation encoding or 2D relaxation-relaxation encoding) combined with a regularized spatial-spectral estimation procedure. Theoretical calculations, simulations, and experimental results are used to illustrate the benefits of this approach relative to classical methods. In addition, we demonstrate an initial proof-of-principle application of this kind of approach to in vivo human MRI experiments.

Topics & Concepts

Relaxation (psychology)Encoding (memory)Diffusion MRIInverse problemStatistical physicsDiffusionExponential functionInverseComputer scienceBiological systemAlgorithmPhysicsMathematicsArtificial intelligenceMathematical analysisMagnetic resonance imagingNeuroscienceQuantum mechanicsMedicineRadiologyBiologyGeometryAdvanced MRI Techniques and ApplicationsAdvanced Neuroimaging Techniques and ApplicationsNMR spectroscopy and applications