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 resistancePredicting indirect effects of rotavirus vaccination programs on rotavirus mortality among children in 112 countries
Kraay A, Chaney D, Deshpande A, Pitzer V, Lopman B. Predicting indirect effects of rotavirus vaccination programs on rotavirus mortality among children in 112 countries. Npj Vaccines 2023, 8: 32. PMID: 36871093, PMCID: PMC9985632, DOI: 10.1038/s41541-023-00632-y.Peer-Reviewed Original ResearchRotavirus vaccinationVaccine coveragePost-vaccine introductionHigh vaccine coverageRotavirus vaccination programLow vaccine coverageBirth rateWHO European RegionRotavirus deathsRotavirus mortalityRotavirus vaccineMiddle-income countriesVaccine impactDiarrhea deathsVaccination programIndirect protectionVaccinationEffect estimatesMortalityWestern Pacific RegionRegression analysisDirect protectionIncome countriesDeathHigh birth rate
2016
In-season and out-of-season variation of rotavirus genotype distribution and age of infection across 12 European countries before the introduction of routine vaccination, 2007/08 to 2012/13.
Hungerford D, Vivancos R, Read J, Pitzer V, Cunliffe N, French N, Iturriza-Gómara M. In-season and out-of-season variation of rotavirus genotype distribution and age of infection across 12 European countries before the introduction of routine vaccination, 2007/08 to 2012/13. Eurosurveillance 2016, 21 PMID: 26794258, DOI: 10.2807/1560-7917.es.2016.21.2.30106.Peer-Reviewed Original ResearchConceptsGenotype distributionMultinomial multivariate logistic regressionRotavirus gastroenteritis casesRotavirus genotype distributionRoutine rotavirus vaccinationRotavirus vaccination programRotavirus-positive specimensMultivariate logistic regressionOdds of infectionAge of infectionRVGE casesUntypable genotypesRotavirus vaccinationRoutine vaccinationVaccine introductionVaccination programGastroenteritis casesEpidemiological changesGenotype surveillanceLogistic regressionCommon genotypeMicrobiological dataVaccinationSurveillance networkAge
2012
Understanding Reduced Rotavirus Vaccine Efficacy in Low Socio-Economic Settings
Lopman BA, Pitzer VE, Sarkar R, Gladstone B, Patel M, Glasser J, Gambhir M, Atchison C, Grenfell BT, Edmunds WJ, Kang G, Parashar UD. Understanding Reduced Rotavirus Vaccine Efficacy in Low Socio-Economic Settings. PLOS ONE 2012, 7: e41720. PMID: 22879893, PMCID: PMC3412858, DOI: 10.1371/journal.pone.0041720.Peer-Reviewed Original ResearchConceptsLow socio-economic settingRotavirus vaccine efficacyVaccine efficacyRotavirus vaccineSevere diseaseNatural infectionImmunogenicity of vaccinationReduced vaccine efficacySevere rotavirus gastroenteritisReduced efficacyClinical trial resultsLow SES populationsRotavirus gastroenteritisVaccine performanceVaccination programImmune responseEpidemiological factorsVaccineVaccinationTrial resultsInfectionSES populationsEfficacyReduced protectionEfficacy declines