2021
Effectiveness of spatially targeted interventions for control of HIV, tuberculosis, leprosy and malaria: a systematic review
Khundi M, Carpenter JR, Nliwasa M, Cohen T, Corbett EL, MacPherson P. Effectiveness of spatially targeted interventions for control of HIV, tuberculosis, leprosy and malaria: a systematic review. BMJ Open 2021, 11: e044715. PMID: 34257091, PMCID: PMC8278879, DOI: 10.1136/bmjopen-2020-044715.Peer-Reviewed Original ResearchConceptsSystematic reviewCommunity public health interventionsGlobal elimination targetsCommunity-based screeningControl of HIVMass drug administrationPublic health interventionsData extraction toolIndoor residual sprayingEvidence of effectWeb of ScienceCochrane DatabaseElimination targetsCommunity screeningInclusion criteriaDrug AdministrationHIVComplex interventionsHealth interventionsInfectious diseasesTuberculosisIntensive interventionIntervention impactMalaria studiesResidual spraying
2020
Genomic variant-identification methods may alter Mycobacterium tuberculosis transmission inferences
Walter KS, Colijn C, Cohen T, Mathema B, Liu Q, Bowers J, Engelthaler DM, Narechania A, Lemmer D, Croda J, Andrews JR. Genomic variant-identification methods may alter Mycobacterium tuberculosis transmission inferences. Microbial Genomics 2020, 6: mgen000418. PMID: 32735210, PMCID: PMC7641424, DOI: 10.1099/mgen.0.000418.Peer-Reviewed Original Research
2018
Where is tuberculosis transmission happening? Insights from the literature, new tools to study transmission and implications for the elimination of tuberculosis
Auld SC, Shah NS, Cohen T, Martinson NA, Gandhi NR. Where is tuberculosis transmission happening? Insights from the literature, new tools to study transmission and implications for the elimination of tuberculosis. Respirology 2018, 23: 807-817. PMID: 29869818, PMCID: PMC6281783, DOI: 10.1111/resp.13333.Peer-Reviewed Original ResearchTB control activitiesEvidence-based public health interventionsElimination of tuberculosisBurden of tuberculosisInfection control programCommunity-based transmissionPublic health interventionsCommunity-based settingsUnderstanding of transmissionMiddle-income countriesContact investigationTB incidenceTB transmissionTB epidemicTB strainsTuberculosis transmissionPatterns of transmissionHealth interventionsMeaningful improvementsNew casesMolecular epidemiologyTuberculosisControl activitiesOngoing transmissionVentilation studies
2014
Prospective evaluation of a complex public health intervention: lessons from an initial and follow-up cross-sectional survey of the tuberculosis strain typing service in England
Mears J, Abubakar I, Crisp D, Maguire H, Innes JA, Lilley M, Lord J, Cohen T, Borgdorff MW, Vynnycky E, McHugh TD, Sonnenberg P. Prospective evaluation of a complex public health intervention: lessons from an initial and follow-up cross-sectional survey of the tuberculosis strain typing service in England. BMC Public Health 2014, 14: 1023. PMID: 25273511, PMCID: PMC4194411, DOI: 10.1186/1471-2458-14-1023.Peer-Reviewed Original ResearchMeSH KeywordsAttitude of Health PersonnelBacterial Typing TechniquesClinical CompetenceCost-Benefit AnalysisCross-Sectional StudiesEnglandFemaleFollow-Up StudiesHealth ServicesHumansMaleMolecular EpidemiologyMycobacteriumPopulation SurveillanceProgram EvaluationProspective StudiesPublic HealthSurveys and QuestionnairesTuberculosisConceptsPublic health interventionsComplex public health interventionsCross-sectional surveyHealth interventionsNational public health interventionsStrain typingPublic health staffRepeated cross-sectional surveySignificant increaseMIRU-VNTR typingProportion of respondentsTB patientsSelf-rated knowledgeTB controlProspective evaluationMixed-method evaluationHealth staffProspective identificationMajority of respondentsService users' perceptionsMethodsAn onlineInterventionTypingFuture evaluationProfessional groups
2013
Health benefits, costs, and cost-effectiveness of earlier eligibility for adult antiretroviral therapy and expanded treatment coverage: a combined analysis of 12 mathematical models.
Eaton JW, Menzies NA, Stover J, Cambiano V, Chindelevitch L, Cori A, Hontelez JA, Humair S, Kerr CC, Klein DJ, Mishra S, Mitchell KM, Nichols BE, Vickerman P, Bakker R, Bärnighausen T, Bershteyn A, Bloom DE, Boily MC, Chang ST, Cohen T, Dodd PJ, Fraser C, Gopalappa C, Lundgren J, Martin NK, Mikkelsen E, Mountain E, Pham QD, Pickles M, Phillips A, Platt L, Pretorius C, Prudden HJ, Salomon JA, van de Vijver DA, de Vlas SJ, Wagner BG, White RG, Wilson DP, Zhang L, Blandford J, Meyer-Rath G, Remme M, Revill P, Sangrujee N, Terris-Prestholt F, Doherty M, Shaffer N, Easterbrook PJ, Hirnschall G, Hallett TB. Health benefits, costs, and cost-effectiveness of earlier eligibility for adult antiretroviral therapy and expanded treatment coverage: a combined analysis of 12 mathematical models. The Lancet Global Health 2013, 2: e23-34. PMID: 25104632, DOI: 10.1016/s2214-109x(13)70172-4.Peer-Reviewed Original ResearchConceptsHIV-positive adultsAdult antiretroviral therapyAntiretroviral therapyCD4 countTreatment coveragePotential health benefitsConcentrated epidemicsDALY avertedHealth benefitsEligibility criteriaExpansion of eligibilityEarlier eligibilityCD4 count thresholdHealth system perspectiveHead gross domestic productMiddle-income settingsGeneral populationHealth outcomesKey populationsTherapyHealth interventionsHealth budgetIncremental costMelinda Gates FoundationEligibility
2011
Generalized Markov models of infectious disease spread: A novel framework for developing dynamic health policies
Yaesoubi R, Cohen T. Generalized Markov models of infectious disease spread: A novel framework for developing dynamic health policies. European Journal Of Operational Research 2011, 215: 679-687. PMID: 21966083, PMCID: PMC3182455, DOI: 10.1016/j.ejor.2011.07.016.Peer-Reviewed Original ResearchMathematical modelDynamic optimization techniquesGeneralized Markov modelClass of modelsState space sizeMarkov chain modelInfectious disease spreadOptimization techniquesDiscrete-time Markov chain modelComputation timeHost transmission dynamicsChain modelInfectious diseasesSpace sizeHost natural historyMarkov modelHealth policyPrevious modelsPublic health interventionsTransmission dynamicsClassModelReal-time selectionDisease spreadHealth interventions