2023
Cost-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
2016
Identifying cost‐effective dynamic policies to control epidemics
Yaesoubi R, Cohen T. Identifying cost‐effective dynamic policies to control epidemics. Statistics In Medicine 2016, 35: 5189-5209. PMID: 27449759, PMCID: PMC5096998, DOI: 10.1002/sim.7047.Peer-Reviewed Original ResearchConceptsNet health benefitHighest net health benefitHealth benefitsTransmission-reducing interventionsDynamic policiesNovel viral pathogensCurrent interventionsHealth policyMathematical decision modelViral pathogensMonetary outcomesPolicy makersInterventionPolicyDecision modelStatic policyEpidemicEpidemic dataVaccinationVaccinePerformance measures