2021
Comparison of Estimated Effectiveness of Case-Based and Population-Based Interventions on COVID-19 Containment in Taiwan
Ng TC, Cheng HY, Chang HH, Liu CC, Yang CC, Jian SW, Liu DP, Cohen T, Lin HH. Comparison of Estimated Effectiveness of Case-Based and Population-Based Interventions on COVID-19 Containment in Taiwan. JAMA Internal Medicine 2021, 181: 913-921. PMID: 33821922, PMCID: PMC8025126, DOI: 10.1001/jamainternmed.2021.1644.Peer-Reviewed Original ResearchMeSH KeywordsAdultCommunicable Disease ControlContact TracingCOVID-19FemaleHumansMaleMiddle AgedModels, TheoreticalPandemicsQuarantineSARS-CoV-2TaiwanConceptsPopulation-based interventionsCOVID-19 casesCOVID-19 controlComparative effectiveness research studyComparative effectiveness studiesEffective public health systemCOVID-19Reproduction numberPublic health professionalsPublic health systemCategories of interventionsStochastic branching process modelCase detectionMAIN OUTCOMESubsequent infectionPresymptomatic stagePrimary casesHealth professionalsEffective reproduction numberEstimated EffectivenessSerial intervalEffectiveness studiesHealth systemContact tracingCOVID-19 containment
2020
Impact of Effective Global Tuberculosis Control on Health and Economic Outcomes in the United States
Menzies NA, Bellerose M, Testa C, Swartwood N, Malyuta Y, Cohen T, Marks SM, Hill AN, Date AA, Maloney SA, Bowden SE, Grills AW, Salomon JA. Impact of Effective Global Tuberculosis Control on Health and Economic Outcomes in the United States. American Journal Of Respiratory And Critical Care Medicine 2020, 202: 1567-1575. PMID: 32645277, PMCID: PMC7706168, DOI: 10.1164/rccm.202003-0526oc.Peer-Reviewed Original ResearchConceptsGlobal TB controlTB incidence trendsEnd TB StrategyTB controlTB casesIncidence trendsEconomic burdenWorld Health Organization's End TB StrategyTB incidence rateGlobal tuberculosis controlHigh-burden countriesTotal economic burdenMajor health benefitsBase case scenarioBirth countryTB incidenceTB epidemiologyTuberculosis controlTB StrategyIncidence rateHealthcare costsIncidence reductionInfection riskTuberculosisSubstantial health
2018
Spatially targeted screening to reduce tuberculosis transmission in high-incidence settings
Cudahy PGT, Andrews JR, Bilinski A, Dowdy DW, Mathema B, Menzies NA, Salomon JA, Shrestha S, Cohen T. Spatially targeted screening to reduce tuberculosis transmission in high-incidence settings. The Lancet Infectious Diseases 2018, 19: e89-e95. PMID: 30554997, PMCID: PMC6401264, DOI: 10.1016/s1473-3099(18)30443-2.Peer-Reviewed Original ResearchConceptsTuberculosis incidenceLow tuberculosis incidence settingsActive case-finding strategyHigh tuberculosis (TB) incidence countriesCase-finding strategyTuberculosis control strategiesHigh-incidence settingsInfectious causesIncidence settingsIncidence countriesTuberculosis transmissionTreatment outcomesActive screeningOnward transmissionSystematic reviewInfectious individualsInfectious periodTuberculosisIncidenceDeathCauseProximal causeHIVMixed resultsMortality
2016
The transmission of Mycobacterium tuberculosis in high burden settings
Yates TA, Khan PY, Knight GM, Taylor JG, McHugh TD, Lipman M, White RG, Cohen T, Cobelens FG, Wood R, Moore DA, Abubakar I. The transmission of Mycobacterium tuberculosis in high burden settings. The Lancet Infectious Diseases 2016, 16: 227-238. PMID: 26867464, DOI: 10.1016/s1473-3099(15)00499-5.Peer-Reviewed Original ResearchMeSH KeywordsAir MicrobiologyCommunicable Disease ControlCross InfectionDisease Transmission, InfectiousHealth PersonnelHumansMycobacterium tuberculosisTuberculosisConceptsHigh-burden settingsBurden settingsTuberculosis infection controlMycobacterium tuberculosis transmissionEffects of HIVHealth care workersDrug-resistant strainsAntiretroviral therapyPerson transmissionTuberculosis transmissionInfection controlTransmission riskAirborne transmissionMycobacterium tuberculosisWells-Riley equationPresent research prioritiesTransmission dynamicsResearch prioritiesHIVEffective strategyTherapyTuberculosisSettingTrials
2015
How could preventive therapy affect the prevalence of drug resistance? Causes and consequences
Kunkel A, Colijn C, Lipsitch M, Cohen T. How could preventive therapy affect the prevalence of drug resistance? Causes and consequences. Philosophical Transactions Of The Royal Society B Biological Sciences 2015, 370: 20140306. PMID: 25918446, PMCID: PMC4424438, DOI: 10.1098/rstb.2014.0306.Peer-Reviewed Original ResearchMeSH KeywordsAntibiotic ProphylaxisCommunicable Disease ControlComputer SimulationDrug Resistance, MicrobialHumansInfectionsModels, TheoreticalPrevalenceConceptsPreventative therapyDrug resistanceDrug-sensitive pathogensProphylactic antimicrobial therapyLong-term prevalenceSmall pilot studyActive diseaseOverall prevalenceAntimicrobial therapyPrevalencePilot studyTherapyPopulation-level changesPotential population-level effectsDirect effectLevel of coveragePopulation-level effectsHIVTuberculosisMalariaDiseaseCare
2012
Controversies and Unresolved Issues in Tuberculosis Prevention and Control: A Low-Burden-Country Perspective
Abubakar I, Stagg HR, Cohen T, Mangtani P, Rodrigues LC, Pimpin L, Watson JM, Squire SB, Zumla A. Controversies and Unresolved Issues in Tuberculosis Prevention and Control: A Low-Burden-Country Perspective. The Journal Of Infectious Diseases 2012, 205: s293-s300. PMID: 22448025, DOI: 10.1093/infdis/jir886.Peer-Reviewed Original ResearchConceptsHigh-risk groupTuberculosis preventionHigh-income countriesScreening of migrantsContacts of casesLow-burden countriesMultidrug-resistant tuberculosisRate of tuberculosisBurden of diseaseDuration of protectionMost high-income countriesConcentration of casesPreventive therapyBCG vaccineCurrent evidenceGeneral populationLow burdenSurveillance dataTuberculosisReach groupsHomeless personsPace of reductionPreventionBurdenGroup
2007
Emergent heterogeneity in declining tuberculosis epidemics
Colijn C, Cohen T, Murray M. Emergent heterogeneity in declining tuberculosis epidemics. Journal Of Theoretical Biology 2007, 247: 765-774. PMID: 17540410, PMCID: PMC2652758, DOI: 10.1016/j.jtbi.2007.04.015.Peer-Reviewed Original Research