about
Inactivation of the HIF-1α/PDK3 signaling axis drives melanoma toward mitochondrial oxidative metabolism and potentiates the therapeutic activity of pro-oxidantsTargeting the erythropoietin receptor on glioma cells reduces tumour growthThe impact of erythropoietin on short-term changes in phosphorylation of brain protein kinases in a rat model of traumatic brain injury.IDH1(R132H) mutation increases U87 glioma cell sensitivity to radiation therapy in hypoxia.Maternal hypertension during pregnancy modifies the response of the immature brain to hypoxia-ischemia: sequential MRI and behavioral investigations.Permanent or transient chronic ischemic stroke in the non-human primate: behavioral, neuroimaging, histological, and immunohistochemical investigations.Psychosis: pathological activation of limbic thalamocortical circuits by psychomimetics and schizophrenia?Impact of genetic and renovascular chronic arterial hypertension on the acute spatiotemporal evolution of the ischemic penumbra: a sequential study with MRI in the rat.HIF1 and oxygen sensing in the brain.Hypoxia-induced vascular endothelial growth factor expression precedes neovascularization after cerebral ischemia.Hypoxia preconditioning in the brain.Detection of glioblastoma response to temozolomide combined with bevacizumab based on μMRI and μPET imaging reveals [18F]-fluoro-L-thymidine as an early and robust predictive marker for treatment efficacy.Erythropoietin, a cytoprotective and regenerative cytokine, and the hypoxic brain.Human leukocyte antigen-G is frequently expressed in glioblastoma and may be induced in vitro by combined 5-aza-2'-deoxycytidine and interferon-γ treatments: results from a multicentric study.Hypoxia induces macrophage polarization and re-education toward an M2 phenotype in U87 and U251 glioblastoma modelsAngiopoietin-2 is vasoprotective in the acute phase of cerebral ischemiaEndogenous erythropoietin as part of the cytokine network in the pathogenesis of experimental autoimmune encephalomyelitis.Delayed post-ischemic conditioning significantly improves the outcome after retinal ischemia.MRI assessment of hemodynamic effects of angiopoietin-2 overexpression in a brain tumor modelAssessment of behavioural deficits following ischaemic stroke in the marmoset.Imaging of brain oxygenation with magnetic resonance imaging: A validation with positron emission tomography in the healthy and tumoural brain.Multimodal imaging based on MRI and PET reveals [(18)F]FLT PET as a specific and early indicator of treatment efficacy in a preclinical model of recurrent glioblastoma.Differential Radiosensitivity of Uveal Melanoma Cell Lines After X-rays or Carbon Ions Radiation.Hypoxia-inducible factor-2α (HIF-2α), but not HIF-1α, is essential for hypoxic induction of class III β-tubulin expression in human glioblastoma cells.Noninvasive assessment of hypoxia with 3-[18F]-fluoro-1-(2-nitro-1-imidazolyl)-2-propanol ([18F]-FMISO): a PET study in two experimental models of human glioma.Complementary information from magnetic resonance imaging and (18)F-fluoromisonidazole positron emission tomography in the assessment of the response to an antiangiogenic treatment in a rat brain tumor model.Angiopoietin-2 regulates cortical neurogenesis in the developing telencephalon.In vivo MRI tracking of exogenous monocytes/macrophages targeting brain tumors in a rat model of glioma.Molecular mechanisms of skeletal muscle atrophy in a mouse model of cerebral ischemia.FMISO-PET-derived brain oxygen tension maps: application to glioblastoma and less aggressive gliomas.Pharmacological inhibition of myostatin improves skeletal muscle mass and function in a mouse model of stroke.M2 macrophages are more resistant than M1 macrophages following radiation therapy in the context of glioblastoma.Angiopoietin-1-induced PI3-kinase activation prevents neuronal apoptosis.O(6) -methylguanine-DNA methyltransferase (MGMT) promoter methylation and low MGMT-encoded protein expression as prognostic markers in glioblastoma patients treated with biodegradable carmustine wafer implants after initial surgery followed by radioConcomitant inhibition of prolyl hydroxylases and ROCK initiates differentiation of mesenchymal stem cells and PC12 towards the neuronal lineage.Adrenomedullin protects neurons against oxygen glucose deprivation stress in an autocrine and paracrine manner.Effect of hypoxic preconditioning on brain genomic response before and following ischemia in the adult mouse: identification of potential neuroprotective candidates for stroke.Dosimetric evaluation of radionuclides for VCAM-1-targeted radionuclide therapy of early brain metastases.Chronic arterial hypertension impedes glioma growth: a multiparametric MRI study in the rat.Design of the DREPAGREFFE trial: A prospective controlled multicenter study evaluating the benefit of genoidentical hematopoietic stem cell transplantation over chronic transfusion in sickle cell anemia children detected to be at risk of stroke by t
P50
Q24295051-22B768EB-B27F-467C-ADB5-5698C60AA527Q28584214-7859D17B-2B97-48F7-A885-8D1050DEAC6DQ33509004-D97E6484-8609-4CE8-82DD-CD00983289ADQ33660428-B4E049DC-4442-431A-8C2B-676721497B2EQ34066391-F2C6EA41-1FFB-40D4-88B6-94DB1005FDB2Q34170787-872F7003-C3EA-45BC-9EAF-3FBEB71DE695Q34253250-FEFD4B4A-7091-4D8F-AE7B-6A5B03AC1C93Q34627587-ECEC4B4C-3713-45FE-AD8D-70FCEB763BA2Q35777630-22461771-AF37-4C94-8150-C2AE0FCD7125Q35809808-C86BBEE1-DB8C-46DF-A989-8EF51F73E985Q36208634-3194BC8F-2BCF-4173-AA19-F8969665472BQ36500372-17CEDD1A-5136-4F91-9689-A4F75A60DA55Q36565739-3CE051E4-1056-459C-A98F-AC8BC6881B19Q36582874-A2B489C9-C753-43AD-8C03-7C8C0C3372DEQ36597491-2F810E94-77C0-40DF-BFB0-6DCC8E250E39Q36655378-61427894-77B2-4996-82EE-85158FEE0144Q36800398-1B48CFA0-ACE3-4E79-86C4-454BC5F36F03Q37323158-19014D1C-AA38-46B4-87D1-F2DE330FCCECQ37395338-0906250C-D898-451A-B72C-7E088909F6A3Q38649113-228F4CC4-8AD3-443C-A161-9BE1AED33BF6Q38742487-75290B6D-5A28-4EF0-9FB6-07600F0A4F8CQ38822001-28A5E32D-00CD-4DB2-8996-255F6CAECC06Q38869645-050EC4FD-791D-4C08-A14A-FF616322911EQ38954268-D17F619C-63E2-46F7-BCDF-8D80343824ADQ39469151-BA52EEF9-845C-4E4C-A45B-83E6529C86FFQ39489907-E5A2858A-6D5C-434C-A45B-222CA0C35513Q39624603-F99D079A-8B9E-4290-B448-BE5829AD5A99Q40111538-61A90F9F-301C-4C72-8C52-4ED1896B7AACQ40962890-340D6972-C974-4F82-925D-35411EA5BB06Q41581761-23D3EEBA-B551-4E48-ACC5-82CECB17EF98Q42630081-336F8091-C35B-45CB-AA50-C55AC8CDBC20Q42700764-22DD1592-021E-44C1-B021-587EB12EFE5DQ44270070-0BBEF93A-E207-482D-8D2A-F2C1902A16C4Q44838622-09ED489C-C2F0-405F-AE8E-D729367CC6C7Q46321125-68EF3680-B9A9-4EDC-8249-03D4F0495ECCQ46580179-5ABFFE1D-5286-47EA-A348-041CB7A49E4BQ46751261-6F09F20F-EC7F-4E17-A0FE-85FD2F37FA83Q47152190-EFAC657E-E6F0-43B5-A9AF-53FA376D968CQ48124224-8919EF40-EE81-4770-A870-5E3A38FA174BQ48149034-84F89C5D-5ECB-4037-A07A-396E0A3640DF
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Myriam Bernaudin
@ast
Myriam Bernaudin
@en
Myriam Bernaudin
@es
Myriam Bernaudin
@nl
type
label
Myriam Bernaudin
@ast
Myriam Bernaudin
@en
Myriam Bernaudin
@es
Myriam Bernaudin
@nl
prefLabel
Myriam Bernaudin
@ast
Myriam Bernaudin
@en
Myriam Bernaudin
@es
Myriam Bernaudin
@nl
P106
P21
P31
P496
0000-0003-0778-3397