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Search results (17)

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Diffusion MRS tracks distinct trajectories of neuronal development in the cerebellum and thalamus of rat neonates

Ligneul C. et al, (2025), eLife, 13

Diffusion MRS tracks distinct trajectories of neuronal development in the cerebellum and thalamus of rat neonates

Ligneul C. et al, (2025)

Diffusion MRS tracks distinct trajectories of neuronal development in the cerebellum and thalamus of rat neonates

Ligneul C. et al, (2025)

Diffusion MRS tracks distinct trajectories of neuronal development in the cerebellum and thalamus of rat neonates

Ligneul C. et al, (2025)

Diffusion MRS tracks distinct trajectories of neuronal development in the cerebellum and thalamus of rat neonates

Ligneul C. et al, (2024)

Universal dynamic fitting of magnetic resonance spectroscopy

Clarke WT. et al, (2024), Magnetic Resonance in Medicine, 91, 2229 - 2246

Diffusion‐weighted MR spectroscopy: Consensus, recommendations, and resources from acquisition to modeling

Ligneul C. et al, (2024), Magnetic Resonance in Medicine, 91, 860 - 885

Diffusion MRS tracks distinct trajectories of neuronal development in the cerebellum and thalamus of rat neonates

Ligneul C. et al, (2023)

Universal Dynamic Fitting of Magnetic Resonance Spectroscopy

Clarke WT. et al, (2023)

High temporal resolution functional magnetic resonance spectroscopy in the mouse upon visual stimulation.

Ligneul C. et al, (2021), Neuroimage, 234

Inflammation-driven glial alterations in the cuprizone mouse model probed with diffusion-weighted magnetic resonance spectroscopy at 11.7 T.

Genovese G. et al, (2021), NMR Biomed, 34

Short echo time relaxation-enhanced MR spectroscopy reveals broad downfield resonances.

Gonçalves SI. et al, (2019), Magn Reson Med, 82, 1266 - 1277

Diffusion-weighted magnetic resonance spectroscopy enables cell-specific monitoring of astrocyte reactivity in vivo.

Ligneul C. et al, (2019), Neuroimage, 191, 457 - 469

Brain Metabolite Diffusion from Ultra-Short to Ultra-Long Time Scales: What Do We Learn, Where Should We Go?

Valette J. et al, (2018), Front Neurosci, 12

Metabolite diffusion up to very high b in the mouse brain in vivo: Revisiting the potential correlation between relaxation and diffusion properties.

Ligneul C. et al, (2017), Magn Reson Med, 77, 1390 - 1398

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