0000000000073943

AUTHOR

Sarah Albrecht

showing 3 related works from this author

Editorial: Conceptualising ‘Muslim Diaspora’

2016

Cultural StudiesHistoryAnthropologyAnthropology05 social sciences050602 political science & public administrationReligious studiesGender studiesSociology050601 international relations0506 political scienceDiasporaJournal of Muslims in Europe
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Dietary salt promotes ischemic brain injury and is associated with parenchymal migrasome formation

2018

Sodium chloride promotes vascular fibrosis, arterial hypertension, pro-inflammatory immune cell polarization and endothelial dysfunction, all of which might influence outcomes following stroke. But despite enormous translational relevance, the functional importance of sodium chloride in the pathophysiology of acute ischemic stroke is still unclear. In the current study, we show that high-salt diet leads to significantly worse functional outcomes, increased infarct volumes, and a loss of astrocytes and cortical neurons in acute ischemic stroke. While analyzing the underlying pathologic processes, we identified the migrasome as a novel, sodium chloride-driven pathomechanism in acute ischemic …

0301 basic medicineMalePathologyMacroglial CellsSodium ChlorideVascular MedicineBrain IschemiaMice0302 clinical medicineCytosolAnimal CellsMedicine and Health SciencesMedicineEndothelial dysfunctionStrokeNeuronsCerebral CortexCerebral IschemiaMultidisciplinaryQRPathophysiologyStrokeChemistryNeurologyPhysical SciencesImmunohistochemistryMedicineCellular Structures and OrganellesCellular TypesIntracellularResearch Articlemedicine.medical_specialtyScienceCerebrovascular DiseasesGlial Cells03 medical and health sciencesImmune systemIn vivoParenchymaAnimalscardiovascular diseasesVesiclesSodium Chloride DietaryMicroglial CellsNutritionIschemic StrokeOrganellesbusiness.industryChemical CompoundsBiology and Life SciencesCell Biologymedicine.diseaseDiet030104 developmental biologyCellular NeuroscienceAstrocytesBrain InjuriesSaltsbusiness030217 neurology & neurosurgeryNeurosciencePLoS ONE
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Targeting Voltage-Dependent Calcium Channels with Pregabalin Exerts a Direct Neuroprotective Effect in an Animal Model of Multiple Sclerosis

2018

Background/aims Multiple sclerosis (MS) is a prototypical autoimmune central nervous system (CNS) disease. Particularly progressive forms of MS (PMS) show significant neuroaxonal damage as consequence of demyelination and neuronal hyperexcitation. Immuno-modulatory treatment strategies are beneficial in relapsing MS (RMS), but mostly fail in PMS. Pregabalin (Lyrica®) is prescribed to MS patients to treat neuropathic pain. Mechanistically, it targets voltage-dependent Ca2+ channels and reduces harmful neuronal hyperexcitation in mouse epilepsy models. Studies suggest that GABA analogues like pregabalin exert neuroprotective effects in animal models of ischemia and trauma. Methods We tested t…

0301 basic medicineCentral nervous systemPregabalinPregabalinPharmacologyNeuroprotectionlcsh:RC346-429Multiple sclerosis03 medical and health sciencesCellular and Molecular NeuroscienceDevelopmental Neurosciencemedicinelcsh:Neurology. Diseases of the nervous systemExperimental autoimmune encephalomyelitisMicrogliaVoltage-dependent calcium channelbusiness.industryMultiple sclerosislcsh:QP351-495Experimental autoimmune encephalomyelitismedicine.diseaseNeuroprotectionlcsh:Neurophysiology and neuropsychology030104 developmental biologymedicine.anatomical_structureNeurologyNeuropathic painbusinessmedicine.drugNeurosignals
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