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個體化醫(yī)療的現(xiàn)狀與未來四.生物標志物研究呂林莉M.D.,Ph.D.東南大學醫(yī)學院
Outline生物標志物的概念如何評價生物標志物?生物標志物的研究方法?
生物標志物的概念
什么是生物標志物(biomarker)?“measurableandquantifiablebiologicalparameters”--aMedicalSubjectHeading(MeSH)term,1989“Acharacteristicthatisobjectivelymeasuredandevaluatedasanindicatorofnormalbiologicalprocesses,pathogenicprocessesorpharmacologicalresponsestoatherapeuticintervention.”--BiomarkerDefinitionsWorkingGroup,2001,NIH
FeaturesofaUsefulBiomarkerHighsensitivityandspecificityEasyaccessiblesampleCorrelationwithhistologicalscoringChangeinadvanceofclinicalsignsTranslationalfromresearchtoclinicaluse
不同水平生物標志物DNAPrimarytranscriptmRNATranscriptionproteinTranslationRNAprocessingNucleus
BiomarkerExamplesCholesterolisoneofthemostwell-knownbiomarkersofcardiovascularhealthPhysicalmeasurements:bodytemperature(fever);bloodpressure(strokerisk)Otherbiomarkers:?bloodsugarlevel(diabetes)?antigens(hepatitis)?proteins(heartattack)?geneticvariations(Huntington’sdisease)
生物標志物的臨床應(yīng)用LudwigJAetal.Naturereviews2005,5:845-856
目前臨床很多疾病的診斷依賴病理診斷,但不能作為常規(guī)篩查、監(jiān)測手段眾多疾病缺乏早期、特異性生物標志物治療缺乏個體化方案生物標志物應(yīng)用現(xiàn)狀
ClinJAmSocNephrol3:1895–1901,2008.Biomarkersforchronickidneydisease
Arewetreatingsub-populations?疾病藥物無反應(yīng)率抑郁SSRIs,SNRIs,TCAs40-60%哮喘?-adrenergics,LTD44-75%糖尿病Sulfonylurea,Biguanides,Glitazones50-75%腫瘤(乳腺癌肺癌)Various70-100%FromKalow,Tyndale&Meyer,Pharmacogenomics,2001
NovelbiomarkersareneededEarly,accuratediagnosis-IndividualizedtherapyandimprovedtreatmentoutcomesBetterdefinedpopulationswillallowmorespecificdrugs-Betterefficacy-Fewersideeffects
“Theuseofbiomarkerswillchangemedicalpracticefromapopulation-basedapproachtoanindividualizedapproach”FelixFrueh,AssociateDirectorofGenomicsatCDER,FDA
Evolutionofthebiomarkersresearch
HighplasmacholesterolandcardiovasculardiseasesNearly50percentofallfuturemyocardialinfarctionandstrokeeventsoccurinthosewithnormalorbelownormallipidlevels.EUROASPIREStudyGroup,1997%ofMI
Additionalbiomarkers(inflammation)Hs-CRPandcardiovascularriskHs-CRPisthemostwidelystudiedbiomarkerofinflammationincardiovascularrisk.Sincetheearly1990swiththedevelopmentofhighlysensitiveassaysforitsmeasurement,correlationsofhs-CRPwithbothcardiovascularriskfactorsandfuturecardiovasculareventshasbeenpossible.
CRPandLDL–ClevelsandtheriskofcardiovasculardiseasesC-ReactiveProtein(mg/L)<1.01.0-3.0>3.0<130130-160>160LDL-cholesterol(mg/dL)3.02.01.00.0MultivariableRelativeRiskIncreasedCRPlevelsareassociatedwithincreasedriskofcardiovasculareventsindependentlyofLDL-ClevelsRidkerPMetal.,200227,939women
HighCRP-highLDLHighCRP-lowLDLLowCRP-lowLDLLowCRP-highLDLPorbabilityofEvent-freeSurvivalYearsofFollow-up0.990.980.970.960.001.0002468Evolutionofthebiomarkersresearch:CRPandLDL-Clevelsandevent-freesurvivalamongwomen27,939womenThemedianvalueswereasfollows:C-reactiveprotein:1.52mg/LLDLcholesterol:123.7mg/dLor:3.20mmol/LCRPandLDL-Ccouldgivebetterprognosticinformationthanthetwomarkersseparately.RidkerPMetal.,2002
如何評價生物標志物?
常用評價指標(一)敏感性(二)特異性(三)Youden指數(shù)(四)陽性似然比(五)陰性似然比(六)陽性預(yù)報值(七)陰性預(yù)報值(八)ROC曲線
ECG診斷試驗的結(jié)果ECG診斷結(jié)果心肌梗塞合計出現(xiàn)不出現(xiàn)陽性陰性合計416(TP)9(FP)425104(FN)171(TN)275520180700(N)一、敏感性(Sensitivity):TP/(TP+FN)=TPR(truepositiverate)TRP=Sen=416/(416+104)=0.8該指標只與病例組有關(guān),反映了診斷試驗檢出病例的能力
ECG診斷試驗的結(jié)果ECG診斷結(jié)果心肌梗塞合計出現(xiàn)不出現(xiàn)陽性陰性合計416(TP)9(FP)425104(FN)171(TN)275520180700(N)二、特異性(Specificity)Spe=Truenegativerate(TNR)=TN(FP+TN)=171/(171+9)=0.95該指標只與對照組有關(guān),反映了診斷試驗排除非病例的能力。
靈敏度與特異度的優(yōu)缺點優(yōu)點:靈敏度與特異度不受患病率的影響,其取值范圍均在(0,1)之間,其值越接近于1,說明其診斷準確性越好。缺點:當比較兩個診斷試驗時,單獨使用靈敏度或特異度,可能出現(xiàn)矛盾。解決辦法:將兩指標結(jié)合:Youden指數(shù)、陽性似然比、陰性似然比等
ECG診斷試驗的結(jié)果ECG診斷結(jié)果心肌梗塞合計出現(xiàn)不出現(xiàn)陽性陰性合計416(TP)9(FP)425104(FN)171(TN)275520180700(N)三、Youden指數(shù),=Sen+Spe-1=TPR-FPR=0.8-0.05=0.75Youden指數(shù)取值范圍在(0,1)之間,其值越接近1,診斷準確性越好。
ECG診斷試驗的結(jié)果ECG診斷結(jié)果心肌梗塞合計出現(xiàn)不出現(xiàn)陽性陰性合計416(TP)9(FP)425104(FN)171(TN)275520180700(N)
ECG診斷試驗的結(jié)果ECG診斷結(jié)果心肌梗塞合計出現(xiàn)不出現(xiàn)陽性陰性合計416(TP)9(FP)425104(FN)171(TN)275520180700(N)
醫(yī)生最關(guān)心的問題:1.試驗陽性時患病的概率多大?2.試驗陰性時不患病的概率多大?
陽性預(yù)測值是在診斷試驗陽性的受試者中,標準診斷有病的病例(真陽性)所占的比例
陰性預(yù)測值則是在診斷試驗為陰性的受試者中,標準診斷證實無病的受試者(真陰性)所占的比例。
ECG診斷結(jié)果心肌梗塞合計出現(xiàn)不出現(xiàn)陽性陰性合計416(TP)9(FP)425104(FN)171(TN)275520180700(N)
陽性預(yù)報值與陰性預(yù)報值
ROC曲線
ROC(receiveroperatingcharacteristic的縮寫,譯為“接受者工作特征”)ROC曲線研究歷史1950’s雷達信號觀測能力評價1960’s中期實驗心理學、心理物理學1970’s末與1980’s初診斷醫(yī)學ROC的涵義與起源
不同診斷界值時靈敏度與特異度間的平衡(tradeoff)0204060801005060708090100特異度靈敏度百分率(%)
ReceiverOperatingCharacteristiccurveAreaUnderCurve(AUC)-GraphedCurve1=.50?Purechance…nobetterthanrandomguessCurve3isbetterthanCurve2Curve4=1.0?TotallySensitive?completelyaccurateclassificationofeffectivelyandless-effectivelyinstructedstudents
完美與無用的ROC曲線真陽性率即靈敏度假陽性率即1-特異度機率線(chanceline)(diagonalreferenceline)
診斷準確度較低(<0.7)0.00.20.40.60.81.00.00.20.40.60.81.0FPRTPRA=0.664A=0.830診斷準確度較高(>0.9)0.00.20.40.60.81.00.00.20.40.60.81.0FPRTPRA=0.938ROC曲線下面積(Area)與診斷準確度高低高0.90-1.00=excellent(A)中0.80-0.90=good(B)0.70-0.80=fair(C)低0.60-0.70=poor(D)0.50-0.60=fail(F)
ROC曲線小結(jié)ROC曲線反映了靈敏度與特異度間的平衡(增加靈敏度將降低特異度;增加特異度將降低靈敏度)。在ROC曲線空間,如果曲線沿著左邊線,然后沿著上邊線越緊密,則試驗準確度越高。在ROC曲線空間,如果曲線沿著機會線(45度對角線)越緊密,則試驗準確度越低。ROC曲線下面積是重要的試驗準確度指標。
生物標志物研究方法
phasePhase1PreclinicalExploratoryPhase2ClinicalAssayandValidationPhase3RetrospectiveLongitudinalPhase4ProspectiveScreeningPhase5DiseasecontrolObjectiveTargetbiomarkeridentification,feasibilityStudyassayinpeoplewithandwithoutdiseaseCase-controlstudiesusingspecimensLongitudinalstudiestopredictdiseaseClinicaluseSiteBiomarkerdevelopmentlabBiomarkervalidationlabClinicalepidemiologiccentersCohortstudiesCommunityDesignCross-sectionalCross-sectionalCase-controlprospectiveRCTSamplesizesmallsmallmodestmediumlargeVasanRS.Circulation.2006;113:2335-2362.
TheAgendiaMammaPrintTest首個FDA批準的基因組檢測試驗--Feb.2007
Howtheygotthere?2002–Discoveryof70genesignature(117patients)2002–Duplicationofresults(inanothersampleset:295patients)2006–Assayperformance2006–Optimizedarrayformat:reproducibility;backtooriginalsampleset2006–Externalconfirmation(307patients,5hospitals)2007–ApprovalbyFDA
生物標志物研究技術(shù)傳統(tǒng)研究方法:PCR,Westernblotting,ELISA,etal新型研究方法:基因組學技術(shù)蛋白質(zhì)組學技術(shù):2-DIGE/MS,蛋白質(zhì)芯片
生物標志物研究方法Question1.Whathumansamplesshouldbecollected,andhowshouldtheybeused?Doesthisvarybetweendiscovery,validationandimplementation?
Answer1.AllbiologicalsamplesareeligibleforcollectionCollectedbiologicalmaterialdependsonanalyteandtissuesourceExamples–Biologicalfluids?Serum,plasma,urine,csf?Secretions?Saliva,seminalfluid–Bodycavityfluids?Pleuralfluid,peritonealfluid,etc–Specifictissuematerial?Specializedcells–reproductivecells–Non-cellular
Ideal–Biomarkerdiscoverysamplesshouldbeidenticaltotheprojectedtestingsituation–(e.g.Donotstudyplasmafordiscovery,andthenvalidateorimplementassayusingserum)Practical–setupstudywithsamplesthatareasclosetothetestingsituationaspossible
Question2.Whatistheroleofroutinelyaccessiblebiofluidssuchasplasma,serum,andurine?Whatistheroleof“proximal”fluidslikeCSF,synovialfluid,ascites,pancreaticductalfluid,etc?Whatistheroleofsolidtissues?
RoleofroutinelyaccessiblebiofluidsVeryimportantinthediscoveryofbiomarkersofdiseases(systemicvs.organspecific/local)Importantfor:–earlydetection–diseaseseverity–tumorburden–prognosis–monitoringofresponsetotherapy
“Proximalfluids”–CanreflectdiseaseperturbationsintheorgansortissuesfromwhichtheyaresecretedSolidtissues–Veryimportantforthedevelopmentofnovelinsitubiomarkers?Immunofluorescence,immunocytochemistry?Imagingmassspectrometry
Question3.Musthumansamplecollectionbeprospective,orcanexistingrepositoriesbeused?Whatconsiderationsareimportantindeterminingtheadequacyofrepositorysamples?
Answer3:UltimateconfirmationofthevalidityofabiomarkerhastobeproveninaprospectivestudyNevertheless,welldesignedretrospectivestudiesusingwellcharacterizedsamplesinrepositoriescanbeperformedandfrequentlyyieldviablecandidates
生物標志物研究面臨的挑戰(zhàn)Themultidisciplinarynatureofbiomarkerdiscovery&developmentComplexMultipledisciplinesHeterogeneouspopulationsStandardsnotestablishedExpensiveHumanresourcesMultipletechnologies