2020
Management strategies for human babesiosis
Smith RP, Hunfeld KP, Krause PJ. Management strategies for human babesiosis. Expert Review Of Anti-infective Therapy 2020, 18: 625-636. PMID: 32268823, DOI: 10.1080/14787210.2020.1752193.Peer-Reviewed Original ResearchClofazimine, a Promising Drug for the Treatment of Babesia microti Infection in Severely Immunocompromised Hosts
Tuvshintulga B, Vannier E, Tayebwa DS, Gantuya S, Sivakumar T, Guswanto A, Krause PJ, Yokoyama N, Igarashi I. Clofazimine, a Promising Drug for the Treatment of Babesia microti Infection in Severely Immunocompromised Hosts. The Journal Of Infectious Diseases 2020, 222: 1027-1036. PMID: 32310272, DOI: 10.1093/infdis/jiaa195.Peer-Reviewed Original ResearchConceptsB. microti parasitesMicroti infectionHigh-grade parasitemiaDrug-resistant tuberculosisB. microtiBabesia microti infectionAdditional preclinical studiesB. microti infectionImmunocompromised hostB. microti DNAPolymerase chain reactionPreclinical studiesIncidence of babesiosisPromising drugRadical cureMinimal doseClofazimineDay 10Blood smearsBabesia microtiNovel drugsParasitemiaChain reactionMicroscopic examinationAntimicrobial agents
2014
Blood transfusion transmission of the tick‐borne relapsing fever spirochete Borrelia miyamotoi in mice
Krause PJ, Hendrickson JE, Steeves TK, Fish D. Blood transfusion transmission of the tick‐borne relapsing fever spirochete Borrelia miyamotoi in mice. Transfusion 2014, 55: 593-597. PMID: 25251880, DOI: 10.1111/trf.12879.Peer-Reviewed Original ResearchConceptsTransfusion transmissionRed blood cellsBorrelia miyamotoiBlood transfusion transmissionMurine transfusion modelFever spirochete Borrelia miyamotoiSpirochete clearanceRecipient bloodC57BL/6 miceMouse recipientsTransfusion modelMouse modelTransfusionMurine bloodHuman infectionsWet mountLyme diseaseStudy designBlood cellsMiceMiyamotoiSpirochetemiaFever spirochetesBloodBodied ticks
2010
Emergence of Resistance to Azithromycin-Atovaquone in Immunocompromised Patients with Babesia microti Infection
Wormser GP, Prasad A, Neuhaus E, Joshi S, Nowakowski J, Nelson J, Mittleman A, Aguero-Rosenfeld M, Topal J, Krause PJ. Emergence of Resistance to Azithromycin-Atovaquone in Immunocompromised Patients with Babesia microti Infection. Clinical Infectious Diseases 2010, 50: 381-386. PMID: 20047477, DOI: 10.1086/649859.Peer-Reviewed Original ResearchConceptsDrug regimenB. microtiLevel of immunosuppressionBabesia microti infectionTreatment of babesiosisDrug-resistant strainsEmergence of resistanceActive babesiosisMicrobiologic relapseLaboratory abnormalitiesDrug regimensImmunocompromised patientsOptimal therapyTreatment failureDrug therapyMicroti infectionPatientsClinical case historiesDrug resistanceBabesia microtiInfectionRegimenMicrotiEventual developmentBabesiosis
2008
Persistent and Relapsing Babesiosis in Immunocompromised Patients
Krause PJ, Gewurz BE, Hill D, Marty FM, Vannier E, Foppa IM, Furman RR, Neuhaus E, Skowron G, Gupta S, McCalla C, Pesanti EL, Young M, Heiman D, Hsue G, Gelfand JA, Wormser GP, Dickason J, Bia FJ, Hartman B, Telford SR, Christianson D, Dardick K, Coleman M, Girotto JE, Spielman A. Persistent and Relapsing Babesiosis in Immunocompromised Patients. Clinical Infectious Diseases 2008, 46: 370-376. PMID: 18181735, DOI: 10.1086/525852.Peer-Reviewed Original ResearchConceptsCase patientsAntibabesial treatmentClinical courseControl subjectsBlood smearsRetrospective case-control studyOptimal treatment regimenStandard antimicrobial therapyMalaria-like illnessBabesia microti infectionMost cases patientsCase-control studyCourse of therapyB-cell lymphomaAdministration of atovaquoneImmunologic statusStandard therapyAntimicrobial regimenSuch patientsTreatment regimenMicroti infectionAntimicrobial therapyPersistent infectionCell lymphomaAcute babesiosis