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1、Thescienceofischemicstroke:mechanisms and therapies What is cerebral ischemic strokeWhat cause cerebral ischemic strokeWhat are the prominent mechanisms of strokeCurrent approaches for stroke therapeuticsCerebral ischemic strokeCerebral ischemic isaconditioninwhichthereisinsufficientbloodflowtothebr
2、aintomeetmetabolicdemand.Thisleadstopooroxygensupplyorcerebralhypoxiaandthustothedeathofbraintissueorcerebralinfarction/ischemicstroke.Itisasub-typeofstrokealongwithsubarachnoidhemorrhageandintrace-rebralhemorrhage.Strokeisresponsiblefor9%ofdeathsworldwide,makingitthesecondmostcommoncauseofmortality
3、.Morethan25%ofstrokesurvivorsbecomepermanentlydisabledandloseindependenceinperformingday-to-dayactivities.Thesefigureswillcontinuetorisewiththepopulationlivinglongerthanpreviousgenerations.Assuch,effectivetreatmentsforstrokeareurgentlyneeded.Stroke Risk Factors and TriggersMechanismsofStrokeExcitoto
4、xicityMitochondrialresponseReactiveoxygenspecies(ROS)EndoplasmicreticulumstressInflammatoryApoptosisInflammatoryRepairAcutePeriodSubacutePeriodChronicPeriodDepolarizationNa+/K+pumpfailureCNSischemiaDeficiencyofglucoseandoxygen Unabletomaintaintheionic gradientsExcessiveglutamatereleaseExcitotoxicity
5、ExcitotoxicityExcitotoxicityMitochondrialresponseReactiveoxygenspecies(ROS)EndoplasmicreticulumstressInflammatoryCurrentapproachesforstroketherapeuticsBlockingExcitotoxicEvents.NMDAreceptorantagonists01AMPAreceptorantagonists02GABAAreceptoragonists035-HT1Areceptoragonist 4potassiumchannelopeners05ka
6、ppaopiatereceptorantagonists06TABLE 1:Examples of proposed neuroprotectants attempting to mitigate excitotoxicity,and the progression from preclinical experimental stroke models to clinical trialsNoncompetitive NMDA AntagonistsMagnesiumThemechanismofneuroprotectionbymagnesiumremainsuncertain:increas
7、ingmagnesiumconcentrationreducespresynapticreleaseoftheneurotransmitterglutamate,blocksglutamatergicN-methyl-Daspartatereceptors,potentiatesadenosineaction,improvesmitochondrialcalciumbuffering,andblockscalciumentryviavoltage-gatedchannels.Furthermore,ithascardiovasculareffects,notablyenhancedcerebr
8、alperfusionafterMCAO9andraisedcardiacoutput.Fig.1 the effects of MgSO4 pretreatment on infarct volumes MagnesiumhasdemonstrateditsneuroprotectiveeffectinanimalstudiesaswellasinaphaseIIstudyonstrokepatients.Fig.2 Representative tracings of(TTC)stained brain slices.Fig.3 slice infarction volumes in co
9、ntrol and MgSO4-treated animalsPhaseIIICurrently,theFAST-MAG(FieldAdministrationofStrokeTherapyMagnesium)trialincludes1,700strokepatientsreceivingadoseof4g(intravenously)over15min,followedbyamaintenanceinfusionof16gover24hafterarrivalatthehospital;itwasstartedinJanuary2005andisstillinprogressFig 4:K
10、aplan-meier plot of cumulative mortality TABLE2:ExamplesofproposedneuroprotectiveattemptstoagainstoxidativestressFree-RadicalScavengingMechanisms:Proposedinteractionofedaravonewithfreeradicals.Edaravone.(依达拉奉)Figure1 B,Infarct volume was compared between the control and different edaravone groupsFig
11、ure 1.A,Coronal sections from ischemic mice brain stained with TTCFigure 3.Edaravone protected HT22 cells against glutamate-induced oxidative stressFigure 2.Glutamate-induced oxidative damage in the HT22 neuronal cell line Figure 4.Hydrogen peroxide(H2O2)-induced cell damage in cultured rat astrocyt
12、esFigure 5.Alteration of the lesion sizeEdaravoneamelioratedthesizeofischemicstrokelesionsandneurologicaldeficitsinpatientswithsmall-vesselocclusion,i.e.lacunarinfarction,within1year,whiletherewerenosignificantdifferencesinoutcomeafter1year.Inastudycomparingedaravoneandciticolineinacuteischemicstrok
13、e,edaravonewasmoreeffectivewithabetterneurologicaloutcomeat3monthsthanciticolineFigure 6.Alteration of the lesion size by different stroke subtypes.cardioembolism the large-arteryatherosclerosis the small-vessel occlusionTable3 Brif overview of ongoing phase III trials of neuroprotective agentsLOREM
14、 Failed?Timewindowshorttimewindowslongertimewindows1TargetischemicpenumbraNOT2Durationtheoptimaldurationisunknown3Outcomeearlyoutcomes late assessments4Diversity of stroketypes middlecerebralarteryocclusionasamodelofischemicstrokepathophysiologicalheterogeneity5Differencesincomorbidities younghealth
15、yrodentsstroke patients oftensuffer from several severecomorbidities6 preclinicalstudiesclinicaltrialsvFutureDirectionsEstablishanimalmodelsresemblingthehumandiseaseFromneuroprotectiontofull“cerebroprotectionFromneuronalfunctiontoneurovascularunitUnderstandingBiphasicSignalingStroketreatmentsand“Pre
16、cisionMedicine”1.MoskowitzMA1,LoEH,IadecolaC.Thescienceofstroke:mechanismsinsearchoftreatments.Neuron.2010Jul29;67(2):181-98.doi:10.1016/j.neuron.2010.07.0022.KingaSzydlowskaa,b,MichaelTymianski.Calcium,ischemiaandexcitotoxicityCellCalcium.2010Feb;47(2):122-9.doi:10.1016/j.ceca.2010.01.003.Epub2010F
17、eb18.3.GeorgePM1,SteinbergGK2.NovelStrokeTherapeutics:UnravelingStrokePathophysiologyandItsImpactonClinicalTreatments.Neuron.2015Jul15;87(2):297-309.doi:10.1016/j.neuron.2015.05.041.4.KaurH,PrakashA,MedhiB.Drugtherapyinstroke:frompreclinicaltoclinicalstudies.Pharmacology.2013;92(5-6):324-34.Epub2013
18、Dec12.5.TurnerRC1,DodsonSC,RosenCL.Thescienceofcerebralischemiaandthequestforneuroprotection:navigatingpastfailuretofuturesuccess.JNeurosurg.2013May;118(5):1072-85.doi:10.3171/2012.11.JNS12408.Epub2013Jan18.6.BaeON1,SerfozoK,BaekSHetal.Safetyandefficacyevaluationofcarnosine,anendogenousneuroprotectiveagentforischemicstroke.Stroke.2013Jan;44(1):205-12.doi:10.1161/STROKEAHA.112.673954.Epub2012Dec18.References THANKYOUTHANKYOU