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RESEARCH PRODUCT
Hepatitis C virus prevalence and level of intervention required to achieve the WHO targets for elimination in the European Union by 2030: a modelling study
Wolfgang VogelM. BlachierLelia ThorntonWim LalemanIeva TolmaneAntonio CraxìMojca MatičičHans Van VlierbergheChristoph SarrazinLaura HarcouetJoël MossongIlias GountasMatthew E. CrampDevin Razavi-shearerSoo AlemanLyudmila MatevaAnn-sofi DubergVratislav NemecekJordan GenovMichael MannsAnne ØVrehusIrena HrstićKimberly MurphyStefano VellaKrzysztof TomasiewiczFrancesco NegroNina WeisAntonio Javier BlascoAgita JerumaKarolin FalconerDanute SpeicieneJonas ValantinasJose Luis CallejaJan SperlGabor HorvathFilipe CalinasPeter JarcuskaJerneja Videčnik-zormanIvan SchréterKathryn Razavi-shearerChristophe MorenoSergeja GregorčičAngelos HatzakisPierre Van DammeRiina SalupereMassimo ColomboRobert J. De KnegtPeter J SmitDijana NonkovicDaniela K Van SantenWaldemar HalotaRui Sarmento-castroJean-michel DelileSuzanne NorrisVana SypsaRobert FlisiakCarole Seguin-devauxMartin LaggingLiana GheorgheMihály MakaraJavier García-samaniegoChristophe HézodeJennifer KieranMarian OltmanPeter StärkelVictor De LedinghenPablo LázaroStefan ZeuzemE. A. CroesPatrick HoffmannMatti MaimetsFrancesco Saverio MenniniKostas AthanasakisChris EstesStephen D. RyderSarah RobbinsFrançoise Roudot-thoravalMartin KåbergKaarlo SimojokiSona FrankovaAdrian GoldisMarietta SimonovaKyriakos SouliotisKen PasiniHomie RazaviRui Tato MarinhoSarah BlachPavol KristianRumiana MitovaLoreta A. KondiliMaria ButiHelen NdeBoris LukšićHenrik KrarupDominique VandijckHenk W. ReesinkDavid A. M. C. Van De VijverIskren KotzevJessie GunterAdriaan J. Van Der MeerMartti FärkkiläBaiba RozentalePerttu ArkkilaKrasimir AntonovJan GerstoftBéla HunyadyPeer Brehm ChristensenIvane GamkrelidzeValentina LiakinaMichael GschwantlerDeian JelevTatjana ReicGeorge V. PapatheodoridisJonathan SchmelzerDaniel Strucksubject
Pediatricsddc:616.07medicine.disease_cause0302 clinical medicineCost of IllnessEpidemiologyPrevalenceEPIDEMIOLOGY030212 general & internal medicineSettore SECS-P/01 - Economia PoliticaCIRRHOSISmedia_commonddc:616Antiviral Agents/therapeutic useeducation.field_of_studyINJECT DRUGSGastroenterologyHCV INFECTIONvirus diseasesHepatitis CEmigration and ImmigrationDISEASE BURDENHepatitis CMarkov ChainsEmigration and Immigration/statistics & numerical data030211 gastroenterology & hepatologyViral hepatitisModelling ; Eradication ; European Union ; Hepatitis C ; prevalenceCOUNTRIESmedicine.medical_specialtyHepatitis C virusPopulationUNITED-STATESWorld Health OrganizationAntiviral Agents03 medical and health sciencesSDG 3 - Good Health and Well-beingPEOPLEInternal medicineIntervention (counseling)medicineJournal Articlemedia_common.cataloged_instanceHumansEuropean UnionViremiaEuropean unionDisease EradicationeducationHepatitis C/diagnosis/drug therapy/epidemiology/prevention & controlHepatologybusiness.industryViremia/diagnosis/drug therapy/epidemiology/prevention & controlHepatologymedicine.diseaseVirologyPREVENTIONdigestive system diseasesHuman medicineVIRAL-HEPATITISbusinessdescription
Background Hepatitis C virus (HCV) is a leading cause of liver-related morbidity and mortality worldwide. In the European Union (EU), treatment and cure of HCV with direct-acting antiviral therapies began in 2014. WHO targets are to achieve a 65% reduction in liver-related deaths, a 90% reduction of new viral hepatitis infections, and 90% of patients with viral hepatitis infections being diagnosed by 2030. This study assessed the prevalence of HCV in the EU and the level of intervention required to achieve WHO targets for HCV elimination. Methods We populated country Markov models for the 28 EU countries through a literature search of PubMed and Embase between Jan 1, 2000, and March 31, 2016, and a Delphi process to gain expert consensus and validate inputs. We aggregated country models to create a regional EU model. We used the EU model to forecast HCV disease progression (considering the effect of immigration) and developed a strategy to acehive WHO targets. We used weighted average sustained viral response rates and fibrosis restrictions to model the effect of current therapeutic guidelines. We used the EU model to forecast HCV disease progression (considering the effect of immigration) under current screening and therapeutic guidelines. Additionally, we back-calculated the total number of patients needing to be screened and treated to achieve WHO targets. Findings We estimated the number of viraemic HCV infections in 2015 to be 3â238â000 (95% uncertainty interval [UI] 2â106â000â3â795â000) of a total population of 509â868â000 in the EU, equating to a prevalence of viraemic HCV of 0·64% (95% UI 0·41â0·74). We estimated that 1â180â000 (95% UI 1â003â000â1â357â000) people were diagnosed with viraemia (36·4%), 150â000 (12â000â180â000) were treated (4·6% of the total infected population or 12·7% of the diagnosed population), 133â000 (106â000â160â000) were cured (4·1%), and 57â900 (43â900â67â300) were newly infected (1·8%) in 2015. Additionally, 30â400 (26â600â42â500) HCV-positive immigrants entered the EU. To achieve WHO targets, unrestricted treatment needs to increase from 150â000 patients in 2015 to 187â000 patients in 2025 and diagnosis needs to increase from 88â800 new cases annually in 2015 to 180â000 in 2025. Interpretation Given its advanced health-care infrastructure, the EU is uniquely poised to eliminate HCV; however, expansion of screening programmes is essential to increase treatment to achieve the WHO targets. A united effort, grounded in sound epidemiological evidence, will also be necessary. Funding Gilead Sciences.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-05-01 | Lancet Gastroenterology & Hepatology |