about
sameAs
Oral high-dose atorvastatin treatment in relapsing-remitting multiple sclerosisAdvancing Cardiovascular, Neurovascular, and Renal Magnetic Resonance Imaging in Small Rodents Using Cryogenic Radiofrequency Coil TechnologyEnlargement of cerebral ventricles as an early indicator of encephalomyelitisPerfluorocarbon particle size influences magnetic resonance signal and immunological properties of dendritic cellsLack of tumor necrosis factor-related apoptosis-inducing ligand but presence of its receptors in the human brainNormothermic Mouse Functional MRI of Acute Focal Thermostimulation for Probing NociceptionHigh spatial resolution and temporally resolved T2* mapping of normal human myocardium at 7.0 Tesla: an ultrahigh field magnetic resonance feasibility study.Stonin1 mediates endocytosis of the proteoglycan NG2 and regulates focal adhesion dynamics and cell motility.Anchoring dipalmitoyl phosphoethanolamine to nanoparticles boosts cellular uptake and fluorine-19 magnetic resonance signalIdentification of cellular infiltrates during early stages of brain inflammation with magnetic resonance microscopy.High temporal resolution parametric MRI monitoring of the initial ischemia/reperfusion phase in experimental acute kidney injury.Modulation of dendritic cell immunobiology via inhibition of 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase.Treatment of relapsing paralysis in experimental encephalomyelitis by targeting Th1 cells through atorvastatinNew developments in understanding and treating neuroinflammation.How bold is blood oxygenation level-dependent (BOLD) magnetic resonance imaging of the kidney? Opportunities, challenges and future directions.Enhanced Fluorine-19 MRI Sensitivity using a Cryogenic Radiofrequency Probe: Technical Developments and Ex Vivo Demonstration in a Mouse Model of Neuroinflammation.Geranylgeranylation but not GTP loading determines rho migratory function in T cells.Death ligand TRAIL induces no apoptosis but inhibits activation of human (auto)antigen-specific T cells.Acute effects of ferumoxytol on regulation of renal hemodynamics and oxygenation.Assessment of Blood Brain Barrier Leakage with Gadolinium-Enhanced MRI.The subpopulation of microglia expressing functional muscarinic acetylcholine receptors expands in stroke and Alzheimer's disease.Labeling of cell therapies: How can we get it right?Detailing the relation between renal T2* and renal tissue pO2 using an integrated approach of parametric magnetic resonance imaging and invasive physiological measurements.Ophthalmic magnetic resonance imaging at 7 T using a 6-channel transceiver radiofrequency coil array in healthy subjects and patients with intraocular masses.MAPK3 deficiency drives autoimmunity via DC arming.Elevated Bcl-X(L) levels correlate with T cell survival in multiple sclerosis.High spatial and temporal myocardial CINE T2* mapping at 7.0 T: a feasibility study.Induction of TRAIL-mediated glioma cell death by human T cells.Experimental MRI Monitoring of Renal Blood Volume Fraction Variations to Renal Magnetic Resonance OximetryDual effect of glucocorticoids on apoptosis of human autoreactive and foreign antigen-specific T cellsRole of extracellular signal-related kinase (Erk) 1 in the regulation of neuroinflammationFluorine-19 MRI at 21.1 T: enhanced spin-lattice relaxation of perfluoro-15-crown-5-ether and sensitivity as demonstrated in ex vivo murine neuroinflammation.Toward 19F magnetic resonance thermometry: spin-lattice and spin-spin-relaxation times and temperature dependence of fluorinated drugs at 9.4 TPerformance of compressed sensing for fluorine-19 magnetic resonance imaging at low signal-to-noise ratio conditionsProbing renal blood volume with magnetic resonance imagingB1 inhomogeneity correction of RARE MRI with transceive surface radiofrequency probes
P50
Q21144329-33A16277-EEFF-49E6-9E28-9ABB9ED7A24AQ26776191-259C643C-183A-4571-8101-7C81FBA19164Q27308739-BF244729-8A5E-4012-ACBC-DD49E3E747A7Q27332966-52B5F3E5-3CAC-44CC-80FC-A19B806525F2Q28201285-6150EE67-2316-49EA-A3D0-343EADCD8C24Q30391769-17989C80-C631-4268-B7DD-95EFF79DF637Q30459820-DC5B7C83-5DC5-405B-9C89-04DA38FB7DA5Q30667566-42849258-E627-4450-AEC9-2371BD4B1F33Q33556363-9A95F691-FB26-4220-AFF7-5AEF9344CF1BQ34200068-C97C71F4-BACA-4A6F-80BC-C24CA3A3DE68Q34612094-C5CDC3D1-6934-4A60-90C0-F7F0AD3CD813Q35205220-580F7A4A-14AA-456F-B3EB-4DF37000F2B1Q36370581-6D10B4B7-095C-4211-A6F3-B7F1D135DD91Q37057309-EDB9A4D9-FF4B-4BF9-981B-1AC922E5EA3DQ38247565-02C9941B-B2FF-472E-A2B1-1C16500942D3Q38635918-8015B177-4758-4B6C-B872-21FCB303F9A2Q40065398-4ED76113-743D-436B-BCC3-58C601FE7757Q40733996-91194ADD-4BB3-411E-8399-EDF976D13A45Q41815227-FB11B6E7-D871-4854-A0AB-A4D9B5A0C365Q47860539-8232A222-851C-4A39-B7E0-8CDDAED48FF0Q48407040-6B796490-C2D4-4A58-9D14-4B0F30A88DC4Q50538507-D8F94B17-7E50-4E58-AD6A-29ABAE1C4581Q51100807-C795A5B6-8C83-43C8-A426-2DA286B51058Q52878256-4231EDD1-19E7-4BF5-9C2D-C0B734E1D9A1Q52905297-AAD274AF-BA92-430F-BB00-F875E7218B64Q52957481-7FB247BE-3805-4385-B32C-3EF59EB7E7DCQ55209876-B18F01D3-9D25-4C83-B289-0F6D21E256F8Q55473819-E95F3A4B-88F6-4131-B550-A88A527416C3Q56966214-8008D9B3-5C3E-4860-B92C-FB3888F0AD0CQ57623649-25145A56-329F-4089-922D-FCEA7AC9AF2AQ59249013-3E30E2C9-A756-435A-BC0A-86F8FD0156D1Q64930139-4C82AC44-2100-47D3-B558-221089459B46Q90264457-A7D3068D-5D3A-4F9A-AFDA-117458AE9716Q92166952-82017BC8-A360-4907-8AFF-C89AC02232F7Q92247467-9054B0A3-0A08-4855-B9D8-7C5F8BADAFC9Q95650512-C02154A8-F6A4-4EB7-9D66-5CF9FD13B10E
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Sonia Waiczies
@ast
Sonia Waiczies
@en
Sonia Waiczies
@es
Sonia Waiczies
@nl
Sonia Waiczies
@sl
type
label
Sonia Waiczies
@ast
Sonia Waiczies
@en
Sonia Waiczies
@es
Sonia Waiczies
@nl
Sonia Waiczies
@sl
prefLabel
Sonia Waiczies
@ast
Sonia Waiczies
@en
Sonia Waiczies
@es
Sonia Waiczies
@nl
Sonia Waiczies
@sl
P106
P1153
6505993763
P21
P31
P496
0000-0002-9916-9572