about
In amnio MRI of mouse embryosMonitoring the Growth of an Orthotopic Tumour Xenograft Model: Multi-Modal Imaging Assessment with Benchtop MRI (1T), High-Field MRI (9.4T), Ultrasound and Bioluminescence.Measuring biexponential transverse relaxation of the ASL signal at 9.4 T to estimate arterial oxygen saturation and the time of exchange of labeled blood water into cortical brain tissue.Viable and fixed white matter: diffusion magnetic resonance comparisons and contrasts at physiological temperature.Noninvasive quantification of solid tumor microstructure using VERDICT MRI.Multimodality characterization of microstructure by the combination of diffusion NMR and time-domain diffuse optical data.Is your system calibrated? MRI gradient system calibration for pre-clinical, high-resolution imaging.Compartment models of the diffusion MR signal in brain white matter: a taxonomy and comparison.Primed infusion with delayed equilibrium of Gd.DTPA for enhanced imaging of small pulmonary metastasesIncreased cerebral vascular reactivity in the tau expressing rTg4510 mouse: evidence against the role of tau pathology to impair vascular health in Alzheimer's diseaseIn vivo imaging of tau pathology using multi-parametric quantitative MRI.Application of neurite orientation dispersion and density imaging (NODDI) to a tau pathology model of Alzheimer's diseaseMicrostructural models for diffusion MRI in breast cancer and surrounding stroma: an ex vivo study.Apparatus for Histological Validation of In Vivo and Ex Vivo Magnetic Resonance Imaging of the Human ProstateDiffusion microscopic MRI of the mouse embryo: Protocol and practical implementation in the splotch mouse model.Transplantation of magnetically labeled mesenchymal stem cells in a model of perinatal brain injury.Amniotic fluid stem cells prevent development of ascites in a neonatal rat model of necrotizing enterocolitis.Tissue magnetic susceptibility mapping as a marker of tau pathology in Alzheimer's disease.Estimation of pore size in a microstructure phantom using the optimised gradient waveform diffusion weighted NMR sequence.Low frequency oscillating gradient spin-echo sequences improve sensitivity to axon diameter: An experimental study in viable nerve tissue.Optimizing gradient waveforms for microstructure sensitivity in diffusion-weighted MR.Enhanced tissue differentiation in the developing mouse brain using magnetic resonance micro-histology.Investigating Low-Velocity Fluid Flow in Tumors with Convection-MRI.Gaussian phase distribution approximations for oscillating gradient spin echo diffusion MRI.Multislice cardiac arterial spin labeling using improved myocardial perfusion quantification with simultaneously measured blood pool input function.Amniotic fluid stem cells improve survival and enhance repair of damaged intestine in necrotising enterocolitis via a COX-2 dependent mechanismA viable isolated tissue system: a tool for detailed MR measurements and controlled perturbation in physiologically stable tissueThe importance of RF bandwidth for effective tagging in pulsed arterial spin labeling MRI at 9.4THigh-Fidelity Meshes from Tissue Samples for Diffusion MRI SimulationsTwo-Compartment Models of the Diffusion MR Signal in Brain White MatterNoninvasive diffusion magnetic resonance imaging of brain tumour cell size for the early detection of therapeutic response
P50
Q27341861-649C4D68-FE59-4939-9EC5-45B5158E850EQ27341861-EF48A537-A311-4741-958F-DF3E3ADC1183Q27344437-01B06779-323B-4999-B932-94B66C476A73Q27344437-EB095C56-454B-497A-8EFA-8CF00E573761Q30578057-E4D0CD1C-31CA-4490-81E1-D880481B91D0Q30696735-E329246F-73FB-4575-BA7E-2BE4AC9891C1Q30696735-E5166E2E-C9E4-4299-B98D-C84B45063543Q30747584-1034EF48-A3EF-4607-A2E7-17BD2A9C750DQ30747584-B0AA4E1F-0FCE-48CC-B0D8-3F0BB9EDD14AQ30812489-92667C42-8CA1-4A4F-913F-5B8C9CBCCFB3Q33578121-E41152D9-D7B6-4550-94DF-F2B38A1963DBQ34048677-0BE66C53-0131-4C90-B20D-53A29704916CQ34575787-63383A63-05FD-4CCF-BDD2-88DDA282F298Q34575787-9443AA9F-F5E9-48FC-A2E6-B367452D7827Q35143533-895F31B1-6C64-4F1B-951E-79FEDB35CF1DQ36226359-21345DA5-ABD5-49EB-A896-9885CB7938C3Q36408071-34E4F0FE-46B9-4156-894A-9BE0E4C256C6Q37593722-C23B251B-1519-4790-B0BD-F0EAFEF1974AQ37718983-95C2F5D9-9E0C-4923-84D3-89CB9B820DF9Q42544712-92ECD87D-72CE-4BBC-8A86-3B11B251BB99Q42874894-6B601016-A765-4113-8573-183C06F482FDQ43578398-C4E83395-CB75-4DF3-9A52-B60CD49B6814Q47161099-F6AAE48B-8C8E-49D5-920E-C9DB8F3B8A85Q47342037-9536A7FC-0884-4A5C-A9C0-B1B820086A93Q47836911-CB3ECA07-35E7-4934-860F-D21B9CC8655CQ48151985-1E842F61-37D1-4C56-96CD-56F7BAF10269Q48265992-E47A4318-7FAC-45D3-A1AB-8D26848EE0A9Q50113403-011587E5-886C-4C6D-887B-0B3BC8AC4188Q51285612-BCD099AA-721D-4604-A01E-01B8663CFBDCQ51298317-043071A1-D515-4A9D-A712-A7C600BC1617Q57076063-F4610119-552E-4CFB-BC3B-6FCC16B21581Q57183761-C949AFE2-3683-4F69-8534-DDA734D111D9Q59291958-29886E7B-B488-4B21-9FF8-D3D4A29E2D59Q59291967-2E2ED3CC-7761-4142-A2B1-67DF460B7C04Q59291973-D0AFD7BA-8C51-4288-B044-52062EE29CB7Q96230581-83700229-C2A2-4565-B39A-3C6CB85D0F1C
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Bernard Siow
@ast
Bernard Siow
@en
Bernard Siow
@es
Bernard Siow
@nl
Bernard Siow
@sl
type
label
Bernard Siow
@ast
Bernard Siow
@en
Bernard Siow
@es
Bernard Siow
@nl
Bernard Siow
@sl
prefLabel
Bernard Siow
@ast
Bernard Siow
@en
Bernard Siow
@es
Bernard Siow
@nl
Bernard Siow
@sl
P106
P1153
36088022100
P21
P31
P496
0000-0002-8687-8783