2022
A crowd of BashTheBug volunteers reproducibly and accurately measure the minimum inhibitory concentrations of 13 antitubercular drugs from photographs of 96-well broth microdilution plates
Fowler P, Wright C, Spiers H, Zhu T, Baeten E, Hoosdally S, Cruz A, Roohi A, Kouchaki S, Walker T, Peto T, Miller G, Lintott C, Clifton D, Crook D, Walker A, Barilar I, Battaglia S, Borroni E, Brandao A, Brankin A, Cabibbe A, Carter J, Cirillo D, Claxton P, Clifton D, Cohen T, Coronel J, Crook D, Earle S, Escuyer V, Ferrazoli L, Fowler P, Gao G, Gardy J, Gharbia S, Ghisi K, Ghodousi A, Cruz A, Grazian C, Guthrie J, He W, Hoffmann H, Hoosdally S, Hunt M, Iqbal Z, Ismail N, Jarrett L, Joseph L, Jou R, Kambli P, Knaggs J, Koch A, Kohlerschmidt D, Kouchaki S, Lachapelle A, Lalvani A, Lapierre S, Laurenson I, Letcher B, Lin W, Liu C, Liu D, Malone K, Mandal A, Matias D, Meintjes G, Mendes F, Merker M, Mihalic M, Millard J, Miotto P, Mistry N, Moore D, Dreyer V, Chetty D, Musser K, Ngcamu D, Nhung H, Grandjean L, Nilgiriwala K, Nimmo C, Okozi N, Oliveira R, Omar S, Paton N, Peto T, Pinhata J, Plesnik S, Puyen Z, Rabodoarivelo M, Rakotosamimanana N, Rancoita P, Rathod P, Robinson E, Rodger G, Rodrigues C, Rodwell T, Roohi A, Santos-Lazaro D, Shah S, Kohl T, Smith G, Solano W, Spitaleri A, Supply P, Steyn A, Surve U, Tahseen S, Thuong N, Thwaites G, Todt K, Trovato A, Utpatel C, Van Rie A, Vijay S, Walker T, Walker A, Warren R, Werngren J, Groenheit R, Wijkander M, Wilkinson R, Wilson D, Wintringer P, Xiao Y, Yang Y, Yanlin Z, Yao S, Zhu B, Niemann S, O'Donnell M. A crowd of BashTheBug volunteers reproducibly and accurately measure the minimum inhibitory concentrations of 13 antitubercular drugs from photographs of 96-well broth microdilution plates. ELife 2022, 11: e75046. PMID: 35588296, PMCID: PMC9286738, DOI: 10.7554/elife.75046.Peer-Reviewed Original ResearchConceptsMinimum inhibitory concentrationIncreasing prevalence of resistanceBroth microdilution platesAntibiotic susceptibility testingPrevalence of resistanceInhibitory concentrationPanel of antibioticsClinical samplesSusceptibility testingMicrodilution platesDilution platingTreatment outcomesIncreased prevalenceAntitubercular drugsAntibioticsInhibited growthDrugCitizen science platformRespiratory diseaseLaboratory scientistsVolunteersPre-determined concentrationsEvaluating spatially adaptive guidelines for the treatment of gonorrhea to reduce the incidence of gonococcal infection and increase the effective lifespan of antibiotics
Yaesoubi R, Cohen T, Hsu K, Gift TL, St. Cyr SB, Salomon JA, Grad YH. Evaluating spatially adaptive guidelines for the treatment of gonorrhea to reduce the incidence of gonococcal infection and increase the effective lifespan of antibiotics. PLOS Computational Biology 2022, 18: e1009842. PMID: 35139073, PMCID: PMC8863219, DOI: 10.1371/journal.pcbi.1009842.Peer-Reviewed Original ResearchConceptsIncidence of gonorrhoeaTreatment guidelinesResistance prevalenceGonorrhea casesTreatment of gonorrheaNational surveillance systemPrevalence of resistanceTransmission dynamic modelGonococcal infectionGonorrhea treatmentMSM populationAntibiotic susceptibilityGonorrheaStandardized guidelinesSurveillance dataPrevalenceIncidenceAntibioticsPotential strategySurveillance systemAbsence of pointsGuidelinesCurrent strategiesEffective lifespanMen
2017
Using Chemical Reaction Kinetics to Predict Optimal Antibiotic Treatment Strategies
Wiesch P, Clarelli F, Cohen T. Using Chemical Reaction Kinetics to Predict Optimal Antibiotic Treatment Strategies. PLOS Computational Biology 2017, 13: e1005321. PMID: 28060813, PMCID: PMC5257006, DOI: 10.1371/journal.pcbi.1005321.Peer-Reviewed Original ResearchConceptsOptimal dosingTreatment strategiesOnset of actionAntibiotic treatment strategiesAntibiotic concentrationsOptimal therapyFrequent dosingHigh dosesBacterial infectionsDrug concentrationsDosingBacterial replicationAntibioticsPhysiological fluctuationsAntibiotic effectCellsHIVBacterial growthTherapyCancerInfectionMalariaDoses