Journal ArticleDOI
Spin diffusion measurements : spin echoes in the presence of a time-dependent field gradient
E. O. Stejskal,J. E. Tanner +1 more
TLDR
In this article, a derivation of the effect of a time-dependent magnetic field gradient on the spin-echo experiment, particularly in the presence of spin diffusion, is given.Abstract:
A derivation is given of the effect of a time‐dependent magnetic field gradient on the spin‐echo experiment, particularly in the presence of spin diffusion. There are several reasons for preferring certain kinds of time‐dependent magnetic field gradients to the more usual steady gradient. If the gradient is reduced during the rf pulses, H1 need not be particularly large; if the gradient is small at the time of the echo, the echo will be broad and its amplitude easy to measure. Both of these relaxations of restrictions on the measurement of diffusion coefficients by the spin‐echo technique serve to extend its range of applicability. Furthermore, a pulsed gradient can be recommended when it is critical to define the precise time period over which diffusion is being measured.The theoretical expression derived has been verified experimentally for several choices of time dependent magnetic field gradient. An apparatus is described suitable for the production of pulsed gradients with amplitudes as large as 100 ...read more
Citations
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Journal ArticleDOI
MR diffusion tensor spectroscopy and imaging.
TL;DR: Once Deff is estimated from a series of NMR pulsed-gradient, spin-echo experiments, a tissue's three orthotropic axes can be determined and the effective diffusivities along these orthotropic directions are the eigenvalues of Deff.
Journal ArticleDOI
The basis of anisotropic water diffusion in the nervous system – a technical review
TL;DR: The purpose of this review is to characterize the relationship of nuclear magnetic resonance measurements of water diffusion and its anisotropy (i.e. directional dependence) with the underlying microstructure of neural fibres.
Journal ArticleDOI
MR imaging of intravoxel incoherent motions: application to diffusion and perfusion in neurologic disorders.
TL;DR: A magnetic resonance (MR) method to image intravoxel incoherent motions (IVIMs) by using appropriate gradient pulses and nonuniform slow flow of cerebrospinal fluid appeared as a useful feature on IVIM images.
Journal ArticleDOI
Diffusion tensor imaging: Concepts and applications
D. Le Bihan,J.-F. Mangin,Cyril Poupon,Chris A. Clark,Sabina Pappatà,Nicolas Molko,Hugues Chabriat +6 more
TL;DR: The concepts behind diffusion tensor imaging are reviewed and potential applications, including fiber tracking in the brain, which, in combination with functional MRI, might open a window on the important issue of connectivity.
References
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Journal ArticleDOI
Bloch Equations with Diffusion Terms
TL;DR: In this article, the phenomenological Bloch equations in nuclear magnetic resonance are generalized by the addition of terms due to the transfer of magnetization by diffusion, and the revised equations describe phenomena under conditions of inhomogeneity in magnetic field, relaxation rates, or initial magnetization.
Journal ArticleDOI
Effects of Diffusion in Nuclear Magnetic Resonance Spin-Echo Experiments
TL;DR: In this paper, the spin-echo attenuation by molecular self-diffusion in an inhomogeneous magnetic field has been calculated for three and four-pulse sequences, and the method employed avoids the question of an averaging procedure as discussed by Das and Saha.
Journal ArticleDOI
N.m.r. spin-echo self-diffusion measurements on fluids undergoing restricted diffusion
TL;DR: In this article, spin-echo measurements were carried out on self-diffusion of water in geological cores and in aqueous suspensions of silica spheres and benzene in rubber are also carried out.
Journal ArticleDOI
Self‐Diffusion Studies by Means of Nuclear Magnetic Resonance Spin‐Echo Techniques
TL;DR: The spin-echo, magnetic resonance method for measuring self-diffusion coefficients is reviewed and the results obtained to date are summarized in this paper, where several uses of selfdiffusion results are discussed.
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