User profiles for B. Hiba
Bassem HIbaresearcher CNRS Verified email at isc.cnrs.fr Cited by 2266 |
[PDF][PDF] Accelerating the evolution of nonhuman primate neuroimaging
Nonhuman primate neuroimaging is on the cusp of a transformation, much in the same way
its human counterpart was in 2010, when the Human Connectome Project was launched to …
its human counterpart was in 2010, when the Human Connectome Project was launched to …
Hybrid gadolinium oxide nanoparticles: multimodal contrast agents for in vivo imaging
… The MRI technique relies upon the relaxation of water protons which depends on the
magnetic fields (the strong static magnetic field B 0 and the radiofrequency-field), on the pulse …
magnetic fields (the strong static magnetic field B 0 and the radiofrequency-field), on the pulse …
[PDF][PDF] An open resource for non-human primate imaging
Non-human primate neuroimaging is a rapidly growing area of research that promises to
transform and scale translational and cross-species comparative neuroscience. Unfortunately, …
transform and scale translational and cross-species comparative neuroscience. Unfortunately, …
Collaborative patch-based super-resolution for diffusion-weighted images
… A comparison with classical interpolation methods such as trilinear and B-spline demonstrates
the competitive results of our proposed approach in terms of improvements on image …
the competitive results of our proposed approach in terms of improvements on image …
[HTML][HTML] A novel case study of thermal and streamline analysis in a grooved enclosure filled with (Ag–MgO/Water) hybrid nanofluid: Galerkin FEM
B Hiba, F Redouane, W Jamshed, CA Saleel… - Case Studies in Thermal …, 2021 - Elsevier
Objective of the present work is to explore the fluidity and thermal performance of Silver and
Magnesium oxide mixed water based hybrid nanofluid over the penetrable hollow ampoule …
Magnesium oxide mixed water based hybrid nanofluid over the penetrable hollow ampoule …
Cardiac and respiratory double self‐gated cine MRI in the mouse at 7 T
ECG‐gated cardiac MRI in the mouse is hindered by many technical difficulties in ECG
signal recording inside static and variable high magnetic scanner fields. The present study …
signal recording inside static and variable high magnetic scanner fields. The present study …
Serial In vivo Spectroscopic Nuclear Magnetic Resonance Imaging of Lactate and Extracellular pH in Rat Gliomas Shows Redistribution of Protons Away from Sites of …
The acidity of the tumor microenvironment aids tumor growth, and mechanisms causing it are
targets for potential therapies. We have imaged extracellular pH (pHe) in C6 cell gliomas in …
targets for potential therapies. We have imaged extracellular pH (pHe) in C6 cell gliomas in …
[HTML][HTML] Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI
…, ME Yildiz, A Gholipour, Y Bihan-Poudec, B Hiba… - NeuroImage, 2022 - Elsevier
… Ex vivo dMRI data were acquired for both brains on a Cartesian grid (515 directions, b m a …
b-values adjusted for ex vivo dMRI (93 directions with b = 6000 s / m m 2 , 92 directions with b …
b-values adjusted for ex vivo dMRI (93 directions with b = 6000 s / m m 2 , 92 directions with b …
Selective dentate gyrus disruption causes memory impairment at the early stage of experimental multiple sclerosis
… 7A and B), we determined that a volume of 0.2 μL (per side) injected at 0.1 μL/min was
optimum to allow a specific and local diffusion of drug within dorsal CA1 or dentate gyrus (Fig. 7A …
optimum to allow a specific and local diffusion of drug within dorsal CA1 or dentate gyrus (Fig. 7A …
Quantitative assessment of skeletal muscle degeneration in patients with myotonic dystrophy type 1 using MRI
B Hiba, N Richard, LJ Hébert, C Coté… - Journal of Magnetic …, 2012 - Wiley Online Library
… Figure 1b shows an example of the multiplicative intensity bias field due to surface coil
sensitivity. This map was used to compute a bias-free TA muscle image (Fig. 1c). …
sensitivity. This map was used to compute a bias-free TA muscle image (Fig. 1c). …