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Cerebral microdialysis for protein biomarker monitoring in the neurointensive care setting - a technical approachEngulfing astrocytes protect neurons from contact-induced apoptosis following injuryIdentification of injury specific proteins in a cell culture model of traumatic brain injuryAppearance of Cxcl10-expressing cell clusters is common for traumatic brain injury and neurodegenerative disordersTemporally resolved differential proteomic analysis of human ventricular CSF for monitoring traumatic brain injury biomarker candidates.Brain tissue oxygenation and cerebral metabolic patterns in focal and diffuse traumatic brain injury.Monitoring of Cerebral Blood Flow and Metabolism Bedside in Patients with Subarachnoid Hemorrhage - A Xenon-CT and Microdialysis Study.Metabolic pattern of the acute phase of subarachnoid hemorrhage in a novel porcine model: studies with cerebral microdialysis with high temporal resolutionInteracting chemokine signals regulate dendritic cells in acute brain injuryGenetic deletion and pharmacological inhibition of Nogo-66 receptor impairs cognitive outcome after traumatic brain injury in mice.Identification of human cerebrospinal fluid proteins and their distribution in an in vitro microdialysis sampling system.Animal modelling of traumatic brain injury in preclinical drug development: where do we go from here?Traumatic axonal injury in the mouse is accompanied by a dynamic inflammatory response, astroglial reactivity and complex behavioral changesFunctional outcome is impaired following traumatic brain injury in aging Nogo-A/B-deficient mice.Distinct cellular patterns of upregulated chemokine expression supporting a prominent inflammatory role in traumatic brain injury.Escalated handling of young C57BL/6 mice results in altered Morris water maze performance.Brain energy metabolism in patients with spontaneous subarachnoid hemorrhage and global cerebral edema.Relationship between intracranial hemodynamics and microdialysis markers of energy metabolism and glutamate-glutamine turnover in patients with subarachnoid hemorrhage. Clinical article.Selective antegrade cerebral perfusion at two different temperatures compared to hypothermic circulatory arrest--an experimental study in the pig with microdialysis.Microdialysis patterns in subarachnoid hemorrhage patients with focus on ischemic events and brain interstitial glutamine levels.The nitrone free radical scavenger NXY-059 is neuroprotective when administered after traumatic brain injury in the rat.Nonischemic energy metabolic crisis in acute brain injury.Ibuprofen attenuates the inflammatory response and allows formation of migratory neuroblasts from grafted stem cells after traumatic brain injury.Extracellular ezrin: a novel biomarker for traumatic brain injury.Refined microdialysis method for protein biomarker sampling in acute brain injury in the neurointensive care setting.The neurological wake-up test increases stress hormone levels in patients with severe traumatic brain injury.Monitoring of β-amyloid dynamics after human traumatic brain injury.Intraluminal intestinal microdialysis detects markers of hypoxia and cell damage in experimental necrotizing enterocolitis.Intestinal ischemia measured by intraluminal microdialysis.Quantitative determination of cerebrospinal fluid bilirubin on a high throughput chemistry analyzer.Cortisol and adrenocorticotropic hormone dynamics in the acute phase of subarachnoid haemorrhageT lymphocyte trafficking: a novel target for neuroprotection in traumatic brain injuryCerebral glucose metabolism after traumatic brain injury in the rat studied by 13C-glucose and microdialysisMultiplexed quantification of proteins adsorbed to surface-modified and non-modified microdialysis membranesRelation between brain interstitial and systemic glucose concentrations after subarachnoid hemorrhageInterstitial F(2)-isoprostane 8-iso-PGF(2α) as a biomarker of oxidative stress after severe human traumatic brain injuryThe neurological wake-up test does not alter cerebral energy metabolism and oxygenation in patients with severe traumatic brain injuryResponse
P50
Q26830132-E434929A-F1C5-446F-8439-D78493B08B5EQ27307485-BA970A94-BC05-47B7-942F-04999AC6F503Q27315716-798C97B6-DF73-469D-9184-221B7D00917FQ28279010-D8B19002-F7A5-48D5-88A8-160877FB78B5Q33415171-AD70F849-A18E-4D55-8282-64C5101023CCQ33579903-21FC191E-9061-4984-83E0-145D8A7719F6Q33696418-CC235BEC-22F6-4A10-84C6-38A2B5AC6C52Q33773626-26EECCEB-B522-4BCD-BD46-0F4C68C9A9EFQ34083673-21E7AB0D-AE2C-4E41-8BBF-41254AF0BB48Q34142373-D407176F-E8D5-4AE5-8C17-B4CD713AD2B6Q35074038-6DE63820-A766-40BC-861E-D6653F9D4E59Q35589949-E0E433AB-0CDE-48ED-BD81-E5A8566D6C45Q36835134-5B03C961-82FB-4D70-9B14-E37FD71DF1EEQ37374135-715216B1-E758-4367-AA78-C6C5FFA520CEQ40065179-3A34B209-E320-46BB-AB38-A0B3E5BE846AQ41926674-3C5200AC-E445-414A-9670-170D74A691F4Q43056177-0C5E49C6-85EC-4490-8826-8C942461133FQ46020223-C17AB974-2FC2-42D4-A208-4350628448F9Q46072904-FE7000C0-319C-4B8D-A296-7FB086392B9EQ46083967-CF248F8B-32D4-48F8-A210-F5AC0F8910ADQ46177917-0D33C628-8E02-4D1E-BA27-667520F94C6DQ46350521-01F6185D-2C11-4604-ABE3-3846F8436025Q46461791-7BCFCB7F-5F38-46FA-9C24-A1DD2859365EQ48623083-CF5B0697-5BFE-4697-AA0F-A3F1B725044FQ48629611-D91E2A33-959E-442F-AB26-4340B6A116BAQ48769351-20F0E404-F704-4116-BCCD-74CF00B111E5Q50856433-52315D6F-D8AE-4761-B7FB-B3E1D88A074DQ53145612-CADD7757-8210-4234-B85B-049A408CB9F0Q53204208-839FBDD2-FDCE-422E-9AAE-138D9BC562BBQ53325586-FFC354D4-DDA3-4982-A2BA-2F65E7364EA5Q60687228-70CF5330-59DF-481D-9F6A-083DABA50479Q80823862-62D2098B-2FD6-44C8-81E7-24E294BD37D3Q82586329-EE5470E5-8E1C-4F4C-8A33-DA29C61CDCFCQ82902056-334CCC95-43F0-4696-9A41-EBE052D1938CQ83814087-DE2E6251-60C9-40D6-A935-093A7663F214Q84270503-287EE5F7-ADF2-4A8B-A3C3-950163388862Q87234847-91D30D65-95B8-4D60-B10C-5CFD2E2424D3Q95827157-AE547423-1044-4EF0-A4AA-48D04A260E4B
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Lars Hillered
@ast
Lars Hillered
@en
Lars Hillered
@es
Lars Hillered
@nl
Lars Hillered
@sl
type
label
Lars Hillered
@ast
Lars Hillered
@en
Lars Hillered
@es
Lars Hillered
@nl
Lars Hillered
@sl
prefLabel
Lars Hillered
@ast
Lars Hillered
@en
Lars Hillered
@es
Lars Hillered
@nl
Lars Hillered
@sl
P106
P21
P31
P496
0000-0002-2808-9292
P569
2000-01-01T00:00:00Z