2018
DOI: 10.1016/j.neuroimage.2017.11.028
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Insights into brain microstructure from in vivo DW-MRS

Abstract: Many developmental processes, such as plasticity and aging, or pathological processes such as neurological diseases are characterized by modulations of specific cellular types and their microstructures. Diffusion-weighted Magnetic Resonance Imaging (DW-MRI) is a powerful technique for probing microstructure, yet its information arises from the ubiquitous, non-specific water signal. By contrast, diffusion-weighted Magnetic Resonance Spectroscopy (DW-MRS) allows specific characterizations of tissues such as brai… Show more

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Cited by 72 publications
(83 citation statements)
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“…In fact, the values reported in [44,45]. Further studies are needed to establish which underlying biological components give rise to such high µFA in gray matter, but dendrites, astrocyte branches, and nonmyelinated or myelinated axons traversing gray matter could be suspected [93,99]. Time-dependent or spectroscopic experiments on metabolites could provide insight into such questions in the future.…”
Section: Discussionmentioning
confidence: 99%
“…In fact, the values reported in [44,45]. Further studies are needed to establish which underlying biological components give rise to such high µFA in gray matter, but dendrites, astrocyte branches, and nonmyelinated or myelinated axons traversing gray matter could be suspected [93,99]. Time-dependent or spectroscopic experiments on metabolites could provide insight into such questions in the future.…”
Section: Discussionmentioning
confidence: 99%
“…using a pair of diffusion gradients as proposed by Stejskal-Tanner (Stejskal and Tanner, 1965). This is of particular interest because intracellular metabolites are constantly exploring their local environment under the effect of diffusion, thus potentially reporting precious information on several attributes of the cell microstructure such as cell fiber length or diameter (Palombo et al, 2018c). Moreover, unlike water, some metabolites are known to be confined in specific cell compartments, as in the case of NAA and glutamate (Glu), which are neuronal markers, or myo-inositol (Ins) and choline compounds (tCho), which are associated to glial cells (Choi et al, 2007).…”
Section: Introductionmentioning
confidence: 99%
“…Indeed, most brain metabolites are confined in the intracellular space, and some of them are even considered to be cell-specific: Nacetylaspartate (NAA) and glutamate (Glu) have for example been reported to be mostly found 25 in neurons, while choline compounds (tCho) and myo-inositol (Ins) are thought to be predominantly in glial cells (Choi et al, 2007;Gill et al, 1989) (more particularly in astrocytes for myo-inositol (Brand et al, 1993)). Hence, the diffusion of these metabolites, as measured using diffusion-weighted MRS (DW-MRS), must specifically depend on the cellular structure constraining them (Palombo et al, 2017c). Some recent works, including ours, support this idea:…”
Section: Main Textmentioning
confidence: 77%
“…2A, macromolecules contribute a lot to high-b spectra: the intensity of the broad macromolecules peak at 0.9 ppm is comparable to NAA intensity. Therefore, it is crucial to properly quantify their signal for such experiments (Palombo et al, 2017c). Here the excellent spectral quality and signal-to-noise ratio SNR at all diffusion-weightings (at b=50 ms/µm 2 the SNR, calculated relative to NAA, is 26 ± 2 in the CNTF group, and 30 ± 2 in the control group), 100 as well as for macromolecules ( Fig.…”
Section: Dw-mrs Reveals Myo-inositol As a Specific Diffusion Marker Omentioning
confidence: 90%
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