2016
A Cost-Effectiveness Tool for Informing Policies on Zika Virus Control
Alfaro-Murillo JA, Parpia AS, Fitzpatrick MC, Tamagnan JA, Medlock J, Ndeffo-Mbah ML, Fish D, Ávila-Agüero ML, Marín R, Ko AI, Galvani AP. A Cost-Effectiveness Tool for Informing Policies on Zika Virus Control. PLOS Neglected Tropical Diseases 2016, 10: e0004743. PMID: 27205899, PMCID: PMC4874682, DOI: 10.1371/journal.pntd.0004743.Peer-Reviewed Original ResearchConceptsGuillain-Barré syndromeZika infectionHealth burdenVirus controlRisk of microcephalyDirect medical costsCost-effectiveness toolsCurrent Zika outbreakGBS casesMedical costsZika casesZika virusMicrocephalyIncidence dataCountry of implementationZika outbreakInfectionInterventionBurdenInforming PolicyDALYsCountry-specific settingsOutbreakMosquitoesPregnancy
2015
Borrelia miyamotoi infection in nature and in humans
Krause PJ, Fish D, Narasimhan S, Barbour AG. Borrelia miyamotoi infection in nature and in humans. Clinical Microbiology And Infection 2015, 21: 631-639. PMID: 25700888, PMCID: PMC4470780, DOI: 10.1016/j.cmi.2015.02.006.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsB. miyamotoi infectionMiyamotoi infectionClinical manifestationsB. miyamotoiLyme diseaseBorrelia miyamotoi infectionAcute febrile illnessCommon clinical manifestationsBlood smear examinationPublic health importanceHuman granulocytic anaplasmosisFever group spirochetesFebrile illnessAntibiotic therapyDisease groupEtiologic diagnosisSevere diseaseSmear examinationIxodes persulcatus ticksHealth importanceInfectionHuman casesGranulocytic anaplasmosisBorrelia miyamotoiDisease
2014
Borrelia miyamotoi sensu lato Seroreactivity and Seroprevalence in the Northeastern United States - Volume 20, Number 7—July 2014 - Emerging Infectious Diseases journal - CDC
Krause PJ, Narasimhan S, Wormser GP, Barbour AG, Platonov AE, Brancato J, Lepore T, Dardick K, Mamula M, Rollend L, Steeves TK, Diuk-Wasser M, Usmani-Brown S, Williamson P, Sarksyan DS, Fikrig E, Fish D, . Borrelia miyamotoi sensu lato Seroreactivity and Seroprevalence in the Northeastern United States - Volume 20, Number 7—July 2014 - Emerging Infectious Diseases journal - CDC. Emerging Infectious Diseases 2014, 20: 1183-1190. PMID: 24960072, PMCID: PMC4073859, DOI: 10.3201/eid2007.131587.Peer-Reviewed Original ResearchConceptsB. burgdorferiInfectious Diseases journal - CDCSeroprevalence of IgGB. burgdorferi antigensLyme disease endemic areaDisease-endemic areasAntibody testingHealthy personsLyme diseaseSerum samplesSeroprevalenceBurgdorferiInfectionSame tickUnited StatesSensu latoArea residentsPersonsBorrelia spSeroreactivityIgGAntigenDiseaseSerum
2013
Human Borrelia miyamotoi Infection in the United States
Krause PJ, Narasimhan S, Wormser GP, Rollend L, Fikrig E, Lepore T, Barbour A, Fish D. Human Borrelia miyamotoi Infection in the United States. New England Journal Of Medicine 2013, 368: 291-293. PMID: 23323920, PMCID: PMC3934646, DOI: 10.1056/nejmc1215469.Peer-Reviewed Original Research
2012
Human Risk of Infection with Borrelia burgdorferi, the Lyme Disease Agent, in Eastern United States
Diuk-Wasser MA, Hoen AG, Cislo P, Brinkerhoff R, Hamer SA, Rowland M, Cortinas R, Vourc'h G, Melton F, Hickling GJ, Tsao JI, Bunikis J, Barbour AG, Kitron U, Piesman J, Fish D. Human Risk of Infection with Borrelia burgdorferi, the Lyme Disease Agent, in Eastern United States. American Journal Of Tropical Medicine And Hygiene 2012, 86: 320-327. PMID: 22302869, PMCID: PMC3269287, DOI: 10.4269/ajtmh.2012.11-0395.Peer-Reviewed Original ResearchConceptsLyme diseaseHuman riskSpread of infectionHuman infection riskBorrelia burgdorferi sensu strictoRisk factorsBurgdorferi sensu strictoInfection riskTick-borne pathogensLyme disease agentPrevention effortsInfectionBorrelia burgdorferiConfidence intervalsB. burgdorferiInfected nymphsRiskDiseaseRisk focusBurgdorferiUnited StatesDisease agentsHost-seeking nymphsI. scapularis populationsDiagnosis
2011
Humans Infected with Relapsing Fever Spirochete Borrelia miyamotoi, Russia - Volume 17, Number 10—October 2011 - Emerging Infectious Diseases journal - CDC
Platonov AE, Karan LS, Kolyasnikova NM, Makhneva NA, Toporkova MG, Maleev VV, Fish D, Krause PJ. Humans Infected with Relapsing Fever Spirochete Borrelia miyamotoi, Russia - Volume 17, Number 10—October 2011 - Emerging Infectious Diseases journal - CDC. Emerging Infectious Diseases 2011, 17: 1816-1823. PMID: 22000350, PMCID: PMC3310649, DOI: 10.3201/eid1710.101474.Peer-Reviewed Original ResearchConceptsB. miyamotoi infectionMiyamotoi infectionInfectious Diseases journal - CDCBorrelia miyamotoiInfluenza-like illnessB. burgdorferi infectionFever spirochete Borrelia miyamotoiDisease-like symptomsFebrile illnessI. ricinus ticksErythema migransClinical manifestationsIxodid tick vectorsBurgdorferi infectionI. scapularis ticksIxodes persulcatus ticksInfectionRicinus ticksScapularis ticksB. burgdorferiB. gariniiFeverWidespread prevalenceIllnessMiyamotoi
2009
Effects of Tick Control by Acaricide Self-Treatment of White-Tailed Deer on Host-Seeking Tick Infection Prevalence and Entomologic Risk for Ixodes scapularis-Borne Pathogens
Hoen A, Rollend L, Papero M, Carroll J, Daniels T, Mather T, Schulze T, Stafford K, Fish D. Effects of Tick Control by Acaricide Self-Treatment of White-Tailed Deer on Host-Seeking Tick Infection Prevalence and Entomologic Risk for Ixodes scapularis-Borne Pathogens. Vector-Borne And Zoonotic Diseases 2009, 9: 431-438. PMID: 19650738, DOI: 10.1089/vbz.2008.0155.Peer-Reviewed Original ResearchConceptsEntomologic riskInfection prevalenceB. burgdorferiPrevalence of infectionFever group spirochetesBacterial coinfectionSelf treatmentTick infection prevalenceLyme diseaseBorrelia miyamotoiB. miyamotoiBacterial agentsPrevalenceBorrelia burgdorferiAnaplasma phagocytophilumA. phagocytophilumAdultsRiskBurgdorferiInfectionDiseaseHost-seeking ticksProportion of ticksAdult ticksTick control
2006
The Clinical Assessment, Treatment, and Prevention of Lyme Disease, Human Granulocytic Anaplasmosis, and Babesiosis: Clinical Practice Guidelines by the Infectious Diseases Society of America
Wormser GP, Dattwyler RJ, Shapiro ED, Halperin JJ, Steere AC, Klempner MS, Krause PJ, Bakken JS, Strle F, Stanek G, Bockenstedt L, Fish D, Dumler JS, Nadelman RB. The Clinical Assessment, Treatment, and Prevention of Lyme Disease, Human Granulocytic Anaplasmosis, and Babesiosis: Clinical Practice Guidelines by the Infectious Diseases Society of America. Clinical Infectious Diseases 2006, 43: 1089-1134. PMID: 17029130, DOI: 10.1086/508667.Peer-Reviewed Original ResearchConceptsInfectious Diseases SocietyHuman granulocytic anaplasmosisDiseases SocietyLyme diseasePost-Lyme disease syndromeGranulocytic anaplasmosisPrevious treatment guidelinesManagement of patientsClinical practice guidelinesEvidence-based guidelinesHealth care providersTickborne infectionTreatment guidelinesClinical manifestationsAntimicrobial therapyClinical assessmentPractice guidelinesCare providersDisease syndromeExpert panelDiseasePreventionPatientsTherapyInfection
2004
Interaction and Transmission of Two Borrelia burgdorferi Sensu Stricto Strains in a Tick-Rodent Maintenance System
Derdáková M, Dudiòák V, Brei B, Brownstein J, Schwartz I, Fish D. Interaction and Transmission of Two Borrelia burgdorferi Sensu Stricto Strains in a Tick-Rodent Maintenance System. Applied And Environmental Microbiology 2004, 70: 6783-6788. PMID: 15528545, PMCID: PMC525125, DOI: 10.1128/aem.70.11.6783-6788.2004.Peer-Reviewed Original ResearchConceptsB. burgdorferi sensu strictoBurgdorferi sensu strictoXenodiagnostic ticksBorrelia burgdorferi sensu strictoUninfected larval ticksGroups of miceWhite-footed miceTransmission cycleControl miceInfected micePrimary infectionExperimental miceI. scapularis ticksLeucopus miceDouble infectionMiceLyme disease agentInfectionScapularis ticksMajor genotypesWeekly intervalsTransmission dynamicsExperimental groupSame strainLarval ticksBorrelia burgdorferi Infection in a Natural Population of Peromyscus Leucopus Mice: A Longitudinal Study in an Area Where Lyme Borreliosis Is Highly Endemic
Bunikis J, Tsao J, Luke C, Luna M, Fish D, Barbour A. Borrelia burgdorferi Infection in a Natural Population of Peromyscus Leucopus Mice: A Longitudinal Study in an Area Where Lyme Borreliosis Is Highly Endemic. The Journal Of Infectious Diseases 2004, 189: 1515-1523. PMID: 15073690, DOI: 10.1086/382594.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, BacterialAntigens, BacterialBacterial Outer Membrane ProteinsBlotting, WesternBorrelia burgdorferiConnecticutDisease ReservoirsDNA, BacterialEndemic DiseasesFemaleImmunoenzyme TechniquesIncidenceIxodesLongitudinal StudiesLyme DiseasePeromyscusPolymerase Chain ReactionRodent DiseasesSeasonsSeroepidemiologic StudiesConceptsPeromyscus leucopus miceLeucopus miceTransmission seasonBorrelia burgdorferi infectionPolymerase chain reactionSurface protein CBurgdorferi infectionBlood samplesMice ageEnzyme immunoassayLyme borreliosisMiceSerum samplesProtein CDynamics of infectionBorrelia burgdorferiB. burgdorferiChain reactionLongitudinal studyEnzootic siteInfectionAntibodiesEntire populationBurgdorferiIxodes scapularis
2002
Detection of Attenuated, Noninfectious Spirochetes in Borrelia burgdorferi–Infected Mice after Antibiotic Treatment
Bockenstedt LK, Mao J, Hodzic E, Barthold SW, Fish D. Detection of Attenuated, Noninfectious Spirochetes in Borrelia burgdorferi–Infected Mice after Antibiotic Treatment. The Journal Of Infectious Diseases 2002, 186: 1430-1437. PMID: 12404158, DOI: 10.1086/345284.Peer-Reviewed Original ResearchConceptsPolymerase chain reactionSham-treated miceAntibiotic-treated miceBorrelia burgdorferi infectionReal-time polymerase chain reactionIxodes scapularis ticksAntibiotic therapyNaive miceHistopathologic evidenceAntibiotic treatmentBurgdorferi infectionPersistent infectionSpirochete DNAMiceBorrelia burgdorferiMonthsScapularis ticksChain reactionTherapyXenodiagnosisInfectionSpirochetesLimited durationTreatmentLow levels
2001
Interference Between the Agents of Lyme Disease and Human Granulocytic Ehrlichiosis in a Natural Reservoir Host
Levin M, Fish D. Interference Between the Agents of Lyme Disease and Human Granulocytic Ehrlichiosis in a Natural Reservoir Host. Vector-Borne And Zoonotic Diseases 2001, 1: 139-148. PMID: 12653144, DOI: 10.1089/153036601316977741.Peer-Reviewed Original ResearchConceptsHuman granulocytic ehrlichiosisE. phagocytophilaB. burgdorferiGranulocytic ehrlichiosisLyme diseaseB. burgdorferi challengeGroups of miceB. burgdorferi-infected miceBurgdorferi-infected miceXenodiagnostic larvaeI. scapularis larvaeUninfected miceNatural reservoir hostsControl miceInfectious challengePrimary infectionXenodiagnostic ticksControl groupMiceInfectionMixed infectionsI. scapularis nymphsBurgdorferiWeekly intervalsSecond agentInfection of Mice with the Agent of Human Granulocytic Ehrlichiosis after Different Routes of Inoculation
Hodzic E, Feng S, Fish D, Leutenegger C, Freet K, Barthold S. Infection of Mice with the Agent of Human Granulocytic Ehrlichiosis after Different Routes of Inoculation. The Journal Of Infectious Diseases 2001, 183: 1781-1786. PMID: 11372031, DOI: 10.1086/320735.Peer-Reviewed Original ResearchConceptsBone marrow samplesReal-time polymerase chain reactionPolymerase chain reactionHuman granulocytic ehrlichiosisMarrow samplesDay 20Granulocytic ehrlichiosisInfection of miceRate of infectionKinetics of infectionLymph nodesGene targetsInfected miceC3H miceEarly disseminationVascular perfusionDay 10Experimental infectionInfectionMiceNeedle inoculationChain reactionBloodEhrlichiosisInoculationEffect of Tick Removal on Transmission of Borrelia burgdorferi and Ehrlichia phagocytophila by Ixodes scapularis Nymphs
Vignes F, Piesman J, Heffernan R, Schulze T, Stafford K, Fish D. Effect of Tick Removal on Transmission of Borrelia burgdorferi and Ehrlichia phagocytophila by Ixodes scapularis Nymphs. The Journal Of Infectious Diseases 2001, 183: 773-778. PMID: 11181154, DOI: 10.1086/318818.Peer-Reviewed Original ResearchConceptsEhrlichia phagocytophilaBorrelia burgdorferiLyme disease endemic areaHuman granulocytic ehrlichiosisDisease-endemic areasScapularis nymphsPolymerase chain reaction analysisSerologic testingField strainsChain reaction analysisSpirochete Borrelia burgdorferiIxodes scapularis nymphsTick removalProbability of infectionHuman infectionsE. phagocytophilaGranulocytic ehrlichiosisInfectionI. scapularis nymphsB. burgdorferiBurgdorferiMiceLyme disease spirochete Borrelia burgdorferiNymphal Ixodes scapularisFed ticks
2000
Immunity Reduces Reservoir Host Competence of Peromyscus leucopus forEhrlichia phagocytophila
Levin M, Fish D. Immunity Reduces Reservoir Host Competence of Peromyscus leucopus forEhrlichia phagocytophila. Infection And Immunity 2000, 68: 1514-1518. PMID: 10678968, PMCID: PMC97309, DOI: 10.1128/iai.68.3.1514-1518.2000.Peer-Reviewed Original ResearchConceptsE. phagocytophilaControl miceImmune responseNonimmune control miceWhite-footed miceSame agentsMajority of miceStrong immune responsePrevalence of infectionXenodiagnostic larvaeImmunized miceTick biteXenodiagnostic ticksIxodes scapularis nymphsControl groupSingle infectionEhrlichia phagocytophilaMiceUninfected ticksInfectionPartial protectionWeeksImmunityScapularis nymphsReservoir host competence
1999
Disparity in the Natural Cycles of Borrelia burgdorferi and the Agent of Human Granulocytic Ehrlichiosis - Volume 5, Number 2—April 1999 - Emerging Infectious Diseases journal - CDC
Levin M, Vignes F, Fish D. Disparity in the Natural Cycles of Borrelia burgdorferi and the Agent of Human Granulocytic Ehrlichiosis - Volume 5, Number 2—April 1999 - Emerging Infectious Diseases journal - CDC. Emerging Infectious Diseases 1999, 5: 204-208. PMID: 10221871, PMCID: PMC2640706, DOI: 10.3201/eid0502.990203.Peer-Reviewed Original ResearchConceptsHuman granulocytic ehrlichiosisAgent of HGEB. burgdorferi infectionBurgdorferi infectionInfectious Diseases journal - CDCBorrelia burgdorferiWhite-footed miceIxodes scapularis ticksWild white-footed miceDifferent prevalenceGranulocytic ehrlichiosisPrevalenceMiceScapularis ticksInfectionHost-seeking ticksNatural cycleBurgdorferiTicksAgentsEhrlichiosis
1998
Acquisition and Transmission of the Agent of Human Granulocytic Ehrlichiosis by Ixodes scapularis Ticks
Hodzic E, Fish D, Maretzki C, De Silva A, Feng S, Barthold S. Acquisition and Transmission of the Agent of Human Granulocytic Ehrlichiosis by Ixodes scapularis Ticks. Journal Of Clinical Microbiology 1998, 36: 3574-3578. PMID: 9817875, PMCID: PMC105242, DOI: 10.1128/jcm.36.12.3574-3578.1998.Peer-Reviewed Original ResearchConceptsInfected miceHuman granulocytic ehrlichiosisHGE agentIxodes scapularis ticksGranulocytic ehrlichiosisUninfected larval ticksAcquisition of infectionScapularis ticksMedian infectious doseLarval ticksNymphal ticksTick-borne transmissionC3H miceImmunodeficient miceInfectious doseMiceHuman isolatesInfectionOnset of feedingBloodEhrlichiosisPresent studyMammalian hostsCompetitive PCRTicksPrevention of Borrelia burgdorferi transmission in guinea pigs by tick immunity.
Nazario S, Das S, de Silva AM, Deponte K, Marcantonio N, Anderson JF, Fish D, Fikrig E, Kantor FS. Prevention of Borrelia burgdorferi transmission in guinea pigs by tick immunity. American Journal Of Tropical Medicine And Hygiene 1998, 58: 780-5. PMID: 9660463, DOI: 10.4269/ajtmh.1998.58.780.Peer-Reviewed Original ResearchGranulocytic Ehrlichiosis in the Laboratory Mouse
Hodzic E, IJdo J, Feng S, Katavolos P, Sun W, Maretzki C, Fish D, Fikrig E, Telford S, Barthold S. Granulocytic Ehrlichiosis in the Laboratory Mouse. The Journal Of Infectious Diseases 1998, 177: 737-745. PMID: 9498456, DOI: 10.1086/514236.Peer-Reviewed Original ResearchConceptsHuman granulocytic ehrlichiosisMouse passageGranulocytic ehrlichiosisHL-60 cell culturesPeripheral bloodC3H miceLate infectionEarly infectionCell culturesDay 17Day 5Blood smearsNormal valuesDay 24Polymerase chain reaction amplificationHGE agentChain reaction amplificationSpleen smearsMiceInfectionInfectivity assaysBloodLaboratory miceSmearsReaction amplificationAfrican Swine Fever Virus Infection in the Argasid Host, Ornithodoros porcinus porcinus
Kleiboeker S, Burrage T, Scoles G, Fish D, Rock D. African Swine Fever Virus Infection in the Argasid Host, Ornithodoros porcinus porcinus. Journal Of Virology 1998, 72: 1711-1724. PMID: 9499019, PMCID: PMC109458, DOI: 10.1128/jvi.72.3.1711-1724.1998.Peer-Reviewed Original ResearchConceptsAfrican swine fever virus infectionVirus infectionVirus replicationDays p.Viral titersSalivary glandsActive virus replicationHigh viral titersTick tissuesPersistent infectionPig transmissionSubsequent infectionInfection rateNervous tissueReproductive tissuesInfectionASFV replicationConnective tissueGland tissueBasal laminaSignificant increaseGlandNymphal ticksTissueTimes postinfection