2021
Airway microbiome dynamics and relationship to ventilator‐associated infection in intubated pediatric patients
Tarquinio KM, Karsies T, Shein SL, Beardsley A, Khemani R, Schwarz A, Smith L, Flori H, Karam O, Cao Q, Haider Z, Smirnova E, Serrano MG, Buck GA, Willson DF. Airway microbiome dynamics and relationship to ventilator‐associated infection in intubated pediatric patients. Pediatric Pulmonology 2021, 57: 508-518. PMID: 34811963, PMCID: PMC8809006, DOI: 10.1002/ppul.25769.Peer-Reviewed Original ResearchMeSH KeywordsChildChild, PreschoolHumansMicrobiotaPneumonia, Ventilator-AssociatedRespiration, ArtificialTracheaUnited StatesVentilators, MechanicalConceptsVentilator-associated infectionDays of intubationAirway microbiomeSerial tracheal aspirate samplesPediatric intensive care unitIntensive care unitIntubated pediatric patientsTracheal aspirate samplesTracheal microbiomePediatric patientsCare unitClinical parametersIntubation periodClinical variablesAntibiotic treatmentVentilated subjectsAspirate samplesInfection scoreMedian numberSubject demographicsPorphyromonadaceae familyMicrobiome patternsIntubationVeillonella atypicaPatientsCompliance With an Antibiotic Guideline for Suspected Ventilator-Associated Infection: The Ventilator-Associated INfection (VAIN2) Study*
Karsies T, Tarquinio K, Shein SL, Beardsley AL, Prentice E, Karam O, Fontela P, Moore-Clingenpeel M, Willson DF. Compliance With an Antibiotic Guideline for Suspected Ventilator-Associated Infection: The Ventilator-Associated INfection (VAIN2) Study*. Pediatric Critical Care Medicine 2021, 22: 859-869. PMID: 33965989, DOI: 10.1097/pcc.0000000000002761.Peer-Reviewed Original ResearchMeSH KeywordsAnti-Bacterial AgentsChildChild, PreschoolGuideline AdherenceHumansProspective StudiesRespiration, ArtificialUnited StatesVentilators, MechanicalConceptsVentilator-associated infectionPositive respiratory culturesRespiratory culturesAntibiotic continuationPhase 3 subjectsRespiratory culture resultsVentilator-Associated InfectionsObservational cohort studyOverall study populationBaseline data collectionPhase 1Antibiotic discontinuationAntibiotic recommendationsAntibiotic guidelinesAntibiotic decisionsCohort studyGuideline adherenceMicrobiologic dataIllness severityMechanical ventilationAntibiotic managementRespiratory secretionsAntibiotic utilizationConsensus guidelinesAntibiotic treatment
2020
Surviving Sepsis Campaign International Guidelines for the Management of Septic Shock and Sepsis-Associated Organ Dysfunction in Children.
Weiss SL, Peters MJ, Alhazzani W, Agus MSD, Flori HR, Inwald DP, Nadel S, Schlapbach LJ, Tasker RC, Argent AC, Brierley J, Carcillo J, Carrol ED, Carroll CL, Cheifetz IM, Choong K, Cies JJ, Cruz AT, De Luca D, Deep A, Faust SN, De Oliveira CF, Hall MW, Ishimine P, Javouhey E, Joosten KFM, Joshi P, Karam O, Kneyber MCJ, Lemson J, MacLaren G, Mehta NM, Møller MH, Newth CJL, Nguyen TC, Nishisaki A, Nunnally ME, Parker MM, Paul RM, Randolph AG, Ranjit S, Romer LH, Scott HF, Tume LN, Verger JT, Williams EA, Wolf J, Wong HR, Zimmerman JJ, Kissoon N, Tissieres P. Surviving Sepsis Campaign International Guidelines for the Management of Septic Shock and Sepsis-Associated Organ Dysfunction in Children. Pediatric Critical Care Medicine 2020, 21: e52-e106. PMID: 32032273, DOI: 10.1097/pcc.0000000000002198.Peer-Reviewed Original ResearchConceptsSepsis-associated organ dysfunctionOrgan dysfunctionSeptic shockBest practice statementsWeak recommendationKey international meetingsStand-alone meetingManagement of childrenQuality of evidenceManagement of infectionsEvidence-based recommendationsGuideline development processResuscitation of childrenInternational expertsRecommendations AssessmentAdjunctive therapyMetabolic therapyPractice patternsConsistent careLarge cohortPanel membersResearch prioritiesSystematic reviewInternational guidelinesDysfunction
2019
Anemia at Discharge From the PICU: A Bicenter Descriptive Study.
Demaret P, Valla FV, Behal H, Mimouni Y, Baudelet JB, Karam O, Recher M, Duhamel A, Tucci M, Javouhey E, Leteurtre S. Anemia at Discharge From the PICU: A Bicenter Descriptive Study. Pediatric Critical Care Medicine 2019, 20: e400-e409. PMID: 31246740, DOI: 10.1097/pcc.0000000000002015.Peer-Reviewed Original ResearchConceptsPediatric critical illnessPICU admissionPICU dischargeRisk of anemiaCritical illnessRisk markersHigher C-reactive protein levelsInotropic/vasopressor supportC-reactive protein levelsWorld Health Organization criteriaMedian hemoglobin levelRetrospective cohort studyElectronic medical recordsVasopressor supportPlasma transfusionCohort studyCreatinine levelsMultivariate adjustmentAnemic childrenHemoglobin levelsMechanical ventilationAnemia statusOrganization criteriaMedical recordsIll childrenDevelopment of an Antibiotic Guideline for Children With Suspected Ventilator-Associated Infections.
Shein SL, Karam O, Beardsley A, Karsies T, Prentice E, Tarquinio KM, Willson DF. Development of an Antibiotic Guideline for Children With Suspected Ventilator-Associated Infections. Pediatric Critical Care Medicine 2019, 20: 697-706. PMID: 30985606, DOI: 10.1097/pcc.0000000000001942.Peer-Reviewed Original ResearchConceptsVentilator-associated infectionPhase 1 dataAntibiotic guidelinesGuideline scoreAntibiotic usePediatric Logistic Organ Dysfunction-2 scoreDuration of antibioticsPICU-free daysVentilator-Associated InfectionsVentilator-free daysInitiation of antibioticsProspective data collectionPhase 3Median ageMechanical ventilationVentilated childrenScore 3Consensus conferenceClinical testingScoring systemInfectionLiterature searchExpert panelAntibioticsScores
2015
Clinical Outcomes Associated With RBC Transfusions in Critically Ill Children
Demaret P, Tucci M, Karam O, Trottier H, Ducruet T, Lacroix J. Clinical Outcomes Associated With RBC Transfusions in Critically Ill Children. Pediatric Critical Care Medicine 2015, 16: 505-514. PMID: 25905491, DOI: 10.1097/pcc.0000000000000423.Peer-Reviewed Original ResearchMeSH KeywordsCase-Control StudiesChildChild, PreschoolCritical CareCritical IllnessErythrocyte TransfusionFemaleHumansInfantInfant, NewbornIntensive Care Units, PediatricLength of StayMaleMultiple Organ FailureOxygenPartial PressureProspective StudiesRenal Replacement TherapyRespiration, ArtificialTime FactorsTreatment OutcomeConceptsProgressive multiple organ dysfunction syndromeMultiple organ dysfunction syndromeFirst RBC transfusionOrgan dysfunction syndromeRBC transfusionIll childrenDysfunction syndromeRenal replacement therapyTertiary children's hospitalCritically Ill ChildrenProspective observational studyArterial partial pressurePICU lengthProlonged PICUPICU patientsMedical chartsClinical outcomesMechanical ventilationMultivariable analysisChildren's HospitalPotential confoundersReplacement therapyConsecutive admissionsPotential complicationsOdds ratio
2013
Optimizing Patient-Ventilator Synchrony During Invasive Ventilator Assist in Children and Infants Remains a Difficult Task*
Vignaux L, Grazioli S, Piquilloud L, Bochaton N, Karam O, Jaecklin T, Levy-Jamet Y, Tourneux P, Jolliet P, Rimensberger PC. Optimizing Patient-Ventilator Synchrony During Invasive Ventilator Assist in Children and Infants Remains a Difficult Task*. Pediatric Critical Care Medicine 2013, 14: e316-e325. PMID: 23842584, DOI: 10.1097/pcc.0b013e31828a8606.Peer-Reviewed Original ResearchMeSH KeywordsChild, PreschoolCross-Over StudiesFemaleHumansInfantIntensive Care Units, PediatricIntubation, IntratrachealMaleProspective StudiesRespiration, ArtificialConceptsAsynchrony eventsVentilatory assistExpiratory triggerInspiratory timeAsynchrony indexNeonatal intensive care unitIntensive care unitPressure support modePatient-ventilator synchronyPressure supportMedian asynchrony indexCare unitCrossover studyMechanical ventilationVentilated childrenVentilator assistUniversity HospitalPremature cyclingClinical impactRandom orderVentilation periodIneffective effortsFurther studiesChildrenSupport mode