2019
Evaluating strategies for control of tuberculosis in prisons and prevention of spillover into communities: An observational and modeling study from Brazil
Mabud TS, de Lourdes Delgado Alves M, Ko AI, Basu S, Walter KS, Cohen T, Mathema B, Colijn C, Lemos E, Croda J, Andrews JR. Evaluating strategies for control of tuberculosis in prisons and prevention of spillover into communities: An observational and modeling study from Brazil. PLOS Medicine 2019, 16: e1002737. PMID: 30677013, PMCID: PMC6345418, DOI: 10.1371/journal.pmed.1002737.Peer-Reviewed Original ResearchConceptsIncidence of TBPrison-based interventionsTB incidenceGeneral populationTB casesCox proportional hazards modelNew TB casesControl of tuberculosisProportional hazards modelPaucity of dataTime of incarcerationTB burdenTB screeningTB riskTB transmissionTB ratesTB epidemicAdministrative databasesCommunity incidenceTuberculosis epidemicHazards modelTB databaseIncidenceEpidemiological contextIntervention
2013
Risk factors and timing of default from treatment for non-multidrug-resistant tuberculosis in Moldova
Jenkins HE, Ciobanu A, Plesca V, Crudu V, Galusca I, Soltan V, Cohen T. Risk factors and timing of default from treatment for non-multidrug-resistant tuberculosis in Moldova. The International Journal Of Tuberculosis And Lung Disease 2013, 17: 373-380. PMID: 23407226, PMCID: PMC3710709, DOI: 10.5588/ijtld.12.0464.Peer-Reviewed Original ResearchMeSH KeywordsAdultAntitubercular AgentsContinuity of Patient CareFemaleHumansInstitutionalizationLeast-Squares AnalysisLinear ModelsMaleMedication AdherenceMoldovaMultivariate AnalysisPatient DischargePrisonersProportional Hazards ModelsRetrospective StudiesRisk FactorsSocioeconomic FactorsTime FactorsTreatment OutcomeTuberculosisConceptsMultidrug-resistant tuberculosisMDR-TB patientsRisk factorsHighest MDR-TB ratesDrug resistanceGreater lung pathologyMDR-TB ratesAnti-tuberculosis treatmentIndependent risk factorHuman immunodeficiency virusTB drug resistanceContinuity of careRoutine surveillance dataTuberculosis patientsResistant tuberculosisImmunodeficiency virusLung pathologyTreatment adherenceRetrospective analysisHigh riskPatientsSociodemographic factorsCommunity careSurveillance dataStudy period
2010
Development of Extensively Drug-resistant Tuberculosis during Multidrug-resistant Tuberculosis Treatment
Shin SS, Keshavjee S, Gelmanova IY, Atwood S, Franke MF, Mishustin SP, Strelis AK, Andreev YG, Pasechnikov AD, Barnashov A, Tonkel TP, Cohen T. Development of Extensively Drug-resistant Tuberculosis during Multidrug-resistant Tuberculosis Treatment. American Journal Of Respiratory And Critical Care Medicine 2010, 182: 426-432. PMID: 20413630, PMCID: PMC2921603, DOI: 10.1164/rccm.200911-1768oc.Peer-Reviewed Original ResearchConceptsMDR-TB treatmentXDR-TBDrug-resistant tuberculosisMultidrug-resistant (MDR) TBMDR-TB treatment programmeExtensively Drug-Resistant TuberculosisMultidrug-resistant tuberculosis treatmentCox proportional hazards modelDevelopment of XDRMDR-TB therapyTB treatment servicesAmplification of resistanceProportional hazards modelThreefold increaseMDR-TBCavitary lesionsConsecutive patientsAppropriate therapyClinical outcomesTreatment adherenceTuberculosis treatmentInjectable antibioticsTimely initiationPrescribed drugsRetrospective analysis