Open AccessBook
NMR Studies of Translational Motion
William S. Price
- 01 Jul 2009
TL;DR: A detailed discussion of magnetic field gradient methods applied to Magnetic Resonance Imaging (MRI) is included, alongside extensive referencing throughout, providing a timely, definitive book to the subject, ideal for researchers in the fields of physics, chemistry and biology.
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Abstract: Translational motion in solution, either diffusion or fluid flow, is at the heart of chemical and biochemical reactivity. Nuclear Magnetic Resonance (NMR) provides a powerful non-invasive technique for studying the phenomena using magnetic field gradient methods. Describing the physical basis of measurement techniques, with particular emphasis on diffusion, balancing theory with experimental observations and assuming little mathematical knowledge, this is a strong, yet accessible, introduction to the field. A detailed discussion of magnetic field gradient methods applied to Magnetic Resonance Imaging (MRI) is included, alongside extensive referencing throughout, providing a timely, definitive book to the subject, ideal for researchers in the fields of physics, chemistry and biology.
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Citations
q-space trajectory imaging for multidimensional diffusion MRI of the human brain.
Carl-Fredrik Westin,Carl-Fredrik Westin,Hans Knutsson,Ofer Pasternak,Filip Szczepankiewicz,Evren Özarslan,Danielle van Westen,Cecilia Mattisson,Mats Bogren,Lauren J. O'Donnell,Marek Kubicki,Daniel Topgaard,Markus Nilsson +12 more
TL;DR: A microstructure model, the diffusion tensor distribution (DTD) model, is proposed, which takes advantage of additional information provided by QTI to estimate a distributional model over diffusion tensors.
324
Microanisotropy imaging: quantification of microscopic diffusion anisotropy and orientational order parameter by diffusion MRI with magic-angle spinning of the q-vector
TL;DR: In this paper, a new parameter called microscopic fractional anisotropy (µFA) was proposed, which corresponds to the FA without the confounding influence of orientation dispersion.
Criteria for solvate ionic liquids
TL;DR: This perspective paper describes possible criteria for the new family of ionic liquids: "solvate" ionic liquid, originally proposed by Angell et al. in their recent review; however, their criteria remain to be debated.
268
Transport properties of hierarchical micro–mesoporous materials
TL;DR: This review summarizes the results obtained so far on experimental and theoretical studies of diffusion in micro-mesoporous materials and discusses four common classes of bi-porous materials, which are differing by the inter-connectivities of their sup-spaces as one of the most important parameter determining the transport rates.
Multidimensional diffusion MRI
TL;DR: The basic physics of solid-state NMR and diffusion MRI are revisited to pinpoint the origin of the somewhat unexpected analogy between the two fields, and an overview of current diffusion MRI acquisition protocols and data analysis methods are provided to quantify the composition of heterogeneous materials in terms of diffusion tensor distributions with size, shape, and orientation dimensions.
228
References
Water dynamics in human blood via combined measurements of T2 relaxation and diffusion in the presence of gadolinium.
TL;DR: An analytical model of tissue relaxation and restricted diffusion in human blood is presented and the obtained model parameters are realistic.
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Analysis of DOSY and GPC-NMR Experiments on Polymers by Multivariate Curve Resolution
TL;DR: Multivariate curve resolution (MCR) was successfully applied to the analysis of DOSY experiments on polymer mixtures and GPC-NMR experiments on industrial copolymer samples.
90
A fast method for the measurement of diffusion coefficients: one‐dimensional DOSY
TL;DR: In this article, a spatial variation in the parameters of a conventional pulse sequence is introduced, so that all of the scans required to determine some physical parameter can be recorded simultaneously from different parts of the sample.
Diffusion in compartmental systems. I. A comparison of an analytical model with simulations.
TL;DR: It is shown that diffusion‐weighted MR methods provide a unique tool for estimation of the intracellular exchange time and differences of multiexponential signal curves, as obtained by different methods of diffusion weighting, can be explained by the influence of transmembrane water flux.
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