about
Isoflurane Exposure Induces Cell Death, Microglial Activation and Modifies the Expression of Genes Supporting Neurodevelopment and Cognitive Function in the Male Newborn Piglet BrainNeuroprotection by the histone deacetylase inhibitor trichostatin A in a model of lipopolysaccharide-sensitised neonatal hypoxic-ischaemic brain injury.Pro-epileptogenic effects of viral-like inflammation in both mature and immature brains.Role of microglia in a mouse model of paediatric traumatic brain injurySystemic stimulation of TLR2 impairs neonatal mouse brain development.HIP/PAP prevents excitotoxic neuronal death and promotes plasticity.Brain cell death is reduced with cooling by 3.5°C to 5°C but increased with cooling by 8.5°C in a piglet asphyxia modelBlood-brain barrier dysfunction in disorders of the developing brainSurgery increases cell death and induces changes in gene expression compared with anesthesia alone in the developing piglet brain.Inhaled 45-50% argon augments hypothermic brain protection in a piglet model of perinatal asphyxia.Characterization of phenotype markers and neuronotoxic potential of polarised primary microglia in vitroImmediate remote ischemic postconditioning after hypoxia ischemia in piglets protects cerebral white matter but not grey matterThe Anti-Inflammatory Effects of the Small Molecule Pifithrin-µ on BV2 Microglia.Failure of thyroid hormone treatment to prevent inflammation-induced white matter injury in the immature brainMolecular mechanisms of neonatal brain injury.Tertiary mechanisms of brain damage: a new hope for treatment of cerebral palsy?Bench to cribside: the path for developing a neuroprotectant.Stem cell therapy for neonatal brain injury.Brain damage of the preterm infant: new insights into the role of inflammation.A Critical Review of Models of Perinatal Infection.Inflammation-induced sensitization of the brain in term infants.Controversies in preterm brain injury.Impaired oligodendrocyte maturation in preterm infants: Potential therapeutic targets.Behavioural effects of near-term acute fetal hypoxia in a small precocial animal, the spiny mouse (Acomys cahirinus).Integrative genomics of microglia implicates DLG4 (PSD95) in the white matter development of preterm infants.Temporal Characterization of Microglia/Macrophage Phenotypes in a Mouse Model of Neonatal Hypoxic-Ischemic Brain Injury.Pharmacokinetics of dexmedetomidine combined with therapeutic hypothermia in a piglet asphyxia model.Melatonin augments hypothermic neuroprotection in a perinatal asphyxia model.Microglial MyD88 signaling regulates acute neuronal toxicity of LPS-stimulated microglia in vitro.Contribution of mast cells to injury mechanisms in a mouse model of pediatric traumatic brain injury.Effect of maternal administration of allopregnanolone before birth asphyxia on neonatal hippocampal function in the spiny mouse.Revisiting thyroid hormone treatment to prevent brain damage of prematurity.[Long-term cerebral effects of perinatal inflammation].Systemic inflammation disrupts the developmental program of white matter.Effects of birth asphyxia on neonatal hippocampal structure and function in the spiny mouse.Corrigendum to “Microglial MyD88 signaling regulates acute neuronal toxicity of LPS-stimulated microglia in vitro” [Brain Behav. Immun. 24 (2010) 776–783]Acute LPS sensitization and continuous infusion exacerbates hypoxic brain injury in a piglet model of neonatal encephalopathy
P50
Q30367949-50251093-366C-46A7-9F46-F4E92EAB24C4Q30524207-E3F7A4AA-EC05-4973-B81C-8CD53C34418DQ30831728-6373D096-20DD-4970-8DE6-A124A4B709A4Q33718924-3D539AE1-00AC-49E4-88B9-D33AD4716B1CQ33900585-E5BC8A9A-5C07-4BDC-AAC8-2501F3E2D8D0Q34562834-D62EE229-F971-4097-9C5A-8022CF1FDA92Q34771315-A9F8F70F-CA30-4878-8841-79D1405B1301Q35090124-61AE45E4-B693-45E4-81EF-75CF9024EAD2Q36326659-8F021BB7-1A9E-4B25-BC22-D0AB2AA77C38Q36514608-E108F881-D5C7-46B8-A0EE-05D9067498ADQ36959383-5C56D563-55C8-43F3-8A28-8698FED7D8ADQ37158101-384DF75E-C697-4365-AD5F-020D73E03879Q37364544-70A16E45-AB16-49B5-9445-ACE3E0FFA114Q37672028-89F32ED6-028C-4403-9DB0-4C697E2A9125Q37987945-CB674ED3-C5B6-4C08-989F-CCDAD67D5091Q38011443-6929434F-DC53-43BB-87DE-67D132769257Q38169987-4D139D6C-7DF8-4B61-BA5D-0EF19FCF1CACQ38187688-732CB6E8-5F92-4D85-8049-432D3164422EQ38197364-9963EDEE-3260-4F95-8ABE-5E149F9DAEE2Q38365554-6F1137A9-F8C3-48C2-BDE6-2D3A8C215D96Q38387876-5A4BCC06-F2F9-47D0-8BEE-9BBFF3514B6AQ38610168-7ED02987-C727-43E3-B057-64F4B8B032BEQ38665835-243BEAE3-A7A0-4422-9F85-4E21B816426EQ39964186-B378C060-A650-42F8-A3A5-A720DF335320Q41620055-BD1B59EC-A1E5-4281-8EED-565EB867F981Q41854447-187B0866-C9EC-4633-8531-F699E6A4BC59Q42910260-2577043E-8A29-436B-862F-448069C4BE22Q44099805-ECEB6541-29CE-4BEE-B1BA-C5AA310E5E6EQ44964904-C152C432-C99A-484A-AE6E-164BA2284509Q47377520-D5276762-AC77-4133-932B-275C574BA2ACQ48203794-15544449-EA2A-4199-A7AB-231A80612653Q48648846-EBB1633F-363A-443D-897E-FFCC8B99300DQ50305707-B27DB285-8E1C-4F34-A0B4-9BB471ED5FF5Q50998316-A5EACEC1-A963-45C4-986A-59FD79AAE6C1Q51454665-5D26BA21-A979-4F67-AFD3-1A304A2419A9Q57982483-787A5067-CE05-4746-A983-F6A49ED2924AQ91902666-A7F54854-0C05-4FCC-8590-5A411B6BD3E8
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Bobbi Fleiss
@ast
Bobbi Fleiss
@en
Bobbi Fleiss
@es
Bobbi Fleiss
@nl
Bobbi Fleiss
@sl
type
label
Bobbi Fleiss
@ast
Bobbi Fleiss
@en
Bobbi Fleiss
@es
Bobbi Fleiss
@nl
Bobbi Fleiss
@sl
prefLabel
Bobbi Fleiss
@ast
Bobbi Fleiss
@en
Bobbi Fleiss
@es
Bobbi Fleiss
@nl
Bobbi Fleiss
@sl
P106
P1153
35784226800
P21
P31
P496
0000-0001-7828-673X