2024
Mapping the incidence rate of typhoid fever in sub-Saharan Africa
Kim J, Choi J, Kim C, Pak G, Parajulee P, Haselbeck A, Park E, Mogasale V, Jeon H, Browne A, Owusu-Dabo E, Rakotozandrindrainy R, Bassiahi A, Teferi M, Lunguya-Metila O, Dolecek C, Pitzer V, Crump J, Hay S, Marks F. Mapping the incidence rate of typhoid fever in sub-Saharan Africa. PLOS Neglected Tropical Diseases 2024, 18: e0011902. PMID: 38408128, PMCID: PMC10965079, DOI: 10.1371/journal.pntd.0011902.Peer-Reviewed Original ResearchIncidence rateSub-Saharan AfricaRate of typhoid feverTyphoid feverIncidence rate of typhoid feverIncidence rate estimatesEffective intervention programsEstimated incidence ratePublic health problemSub-SaharanHigh-incidence countriesLow-incidence countriesHealth conditionsIntervention programsDisease riskHealth problemsTarget resourcesGeospatial variationAge classesDisease incidenceEnvironmental conditionsPublished articlesSub-national heterogeneityGeospatial covariatesCultures of blood
2023
Typhoid fever
Meiring J, Khanam F, Basnyat B, Charles R, Crump J, Debellut F, Holt K, Kariuki S, Mugisha E, Neuzil K, Parry C, Pitzer V, Pollard A, Qadri F, Gordon M. Typhoid fever. Nature Reviews Disease Primers 2023, 9: 71. PMID: 38097589, DOI: 10.1038/s41572-023-00480-z.Peer-Reviewed Original ResearchConceptsTyphoid feverUndifferentiated febrile illnessInvasive bacterial diseaseEffective vaccination programsFecal-oral routeNovel diagnostic modalitiesFebrile illnessBloodstream infectionsVaccination programBlood culturesClinical trialsImmunological protectionHigh burdenCausative organismDiagnostic modalitiesGlobal burdenDisease pathogenesisFeverHuman infectionsIntestinal epitheliumYoung adultsCulture testingSalmonella enterica subspSerovar TyphiAntimicrobial resistanceAssessing the global risk of typhoid outbreaks caused by extensively drug resistant Salmonella Typhi
Walker J, Chaguza C, Grubaugh N, Carey M, Baker S, Khan K, Bogoch I, Pitzer V. Assessing the global risk of typhoid outbreaks caused by extensively drug resistant Salmonella Typhi. Nature Communications 2023, 14: 6502. PMID: 37845201, PMCID: PMC10579367, DOI: 10.1038/s41467-023-42353-9.Peer-Reviewed Original ResearchConceptsXDR S. TyphiS. typhiDrug-resistant Salmonella enterica serovar TyphiDrug-resistant Salmonella TyphiTyphoid outbreakMajor public health threatResistant Salmonella typhiPublic health activitiesTyphoid fever incidencePublic health threatSalmonella enterica serovar TyphiXDR typhoidEnterica serovar TyphiH58 haplotypeHigh riskOnward transmissionTyphoid feverSignificant associationHealth activitiesFever incidenceHealth threatFuture outbreaksSerovar TyphiSalmonella typhiTyphiAssessment of vaccine herd protection in a cluster-randomised trial of Vi conjugate vaccine against typhoid fever: results of further analysis
Khanam F, Kim D, Liu X, Voysey M, Pitzer V, Zaman K, Pollard A, Qadri F, Clemens J. Assessment of vaccine herd protection in a cluster-randomised trial of Vi conjugate vaccine against typhoid fever: results of further analysis. EClinicalMedicine 2023, 58: 101925. PMID: 37090439, PMCID: PMC10114505, DOI: 10.1016/j.eclinm.2023.101925.Peer-Reviewed Original ResearchVaccine herd protectionCluster-randomised trialHerd protectionTransmission of typhoidVi-TTTyphoid feverChildren 9 monthsVi-tetanus toxoidMonths of followJapanese encephalitis vaccineYears of ageTotal vaccine effectivenessUrban Bangladeshi childrenVaccine effectivenessEncephalitis vaccineStudy populationBangladeshi childrenTreatment centersCluster residentsIndirect effectivenessMelinda Gates FoundationTrialsVaccineAnalysis of subpopulationsFeverCost-effectiveness analysis of typhoid conjugate vaccines in an outbreak setting: a modeling study
Phillips M, Antillon M, Bilcke J, Bar-Zeev N, Limani F, Debellut F, Pecenka C, Neuzil K, Gordon M, Thindwa D, Paltiel A, Yaesoubi R, Pitzer V. Cost-effectiveness analysis of typhoid conjugate vaccines in an outbreak setting: a modeling study. BMC Infectious Diseases 2023, 23: 143. PMID: 36890448, PMCID: PMC9993384, DOI: 10.1186/s12879-023-08105-2.Peer-Reviewed Original ResearchConceptsTyphoid Conjugate VaccineRoutine vaccinationReactive vaccinationVaccination strategiesOutbreak settingsMultidrug-resistant Salmonella typhiQueen Elizabeth Central HospitalTyphoid fever epidemicYears of ageMonths of ageCost-effectiveness analysisWorld Health OrganizationConjugate vaccineCentral HospitalRoutine immunizationVaccine deploymentPreventive vaccinationVaccinationTyphoid feverCost-effective strategyAge 15Health OrganizationFever epidemicAntimicrobial resistanceOutbreak definitions
2017
The Typhoid Vaccine Acceleration Consortium (TyVAC): Vaccine effectiveness study designs: Accelerating the introduction of typhoid conjugate vaccines and reducing the global burden of enteric fever. Report from a meeting held on 26–27 October 2016, Oxford, UK
Meiring J, Gibani M, Group: T, Basnyat, Bentsi-Enchill A, Clemens J, Darton T, Date K, Dougan G, Garrett D, Gessner B, Gordon M, Heyderman R, Hombach J, Kotloff K, Levine M, Luby S, Mohan V, Marfin A, Mulholland K, Neuzil K, Pitzer V, Pollard A, Qadri F, Salisbury D, Zaidi A. The Typhoid Vaccine Acceleration Consortium (TyVAC): Vaccine effectiveness study designs: Accelerating the introduction of typhoid conjugate vaccines and reducing the global burden of enteric fever. Report from a meeting held on 26–27 October 2016, Oxford, UK. Vaccine 2017, 35: 5081-5088. PMID: 28802757, DOI: 10.1016/j.vaccine.2017.08.001.Peer-Reviewed Original ResearchConceptsTyphoid Vaccine Acceleration ConsortiumEffectiveness study designStudy designImportant public health toolIntroduction of TCVsHigh disease burdenStrategic Advisory GroupPublic health toolGAVI-eligible countriesCost-effectiveness analysisIntroduction of typhoidEnteric feverPrevious vaccinesTyphoid vaccineDisease burdenEfficacious vaccineGlobal burdenCountry-level decisionsTyphoid epidemiologyTyphoid feverLatest evidenceVaccineTyphoid surveillanceEffectiveness studiesHealth tools
2014
Predicting the Impact of Vaccination on the Transmission Dynamics of Typhoid in South Asia: A Mathematical Modeling Study
Pitzer VE, Bowles CC, Baker S, Kang G, Balaji V, Farrar JJ, Grenfell BT. Predicting the Impact of Vaccination on the Transmission Dynamics of Typhoid in South Asia: A Mathematical Modeling Study. PLOS Neglected Tropical Diseases 2014, 8: e2642. PMID: 24416466, PMCID: PMC3886927, DOI: 10.1371/journal.pntd.0002642.Peer-Reviewed Original ResearchConceptsChristian Medical College HospitalSubstantial indirect protectionMedical College HospitalCulture-confirmed casesImpact of vaccinationIncidence of typhoidTransmission dynamicsOne-time campaignChronic carriersCollege HospitalVaccination strategiesEndemic settingsTyphoid feverVaccinationTyphoid infectionTyphoid casesNatural historyIndirect protectionVi polysaccharideBasic reproductive numberTyphoidIncidenceTyphoid incidenceAge distributionReproductive number