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RESEARCH PRODUCT
Efficacy of a coordinated strategy for containment of multidrug-resistant Gram-negative bacteria carriage in a Neonatal Intensive Care Unit in the context of an active surveillance program
Carmelo Massimo MaidaVitale FrancescoAurora AleoVincenzo InsingaGrazia RinaudoMario GiuffrèCelestino BonuraEmanuele AmodioVitaliti MGiovanni CorselloGiorgio GrazianoFederica MescoloLaura Saporitosubject
0301 basic medicineMicrobiology (medical)Malemedicine.medical_specialtyNeonatal intensive care unit030106 microbiologyExtended spectrum β lactamases producing klebsiella pneumoniaeContext (language use)Drug resistanceMicrobial Sensitivity TestsAntimicrobial resistancelcsh:Infectious and parasitic diseases03 medical and health sciences0302 clinical medicineAntibiotic resistanceMedical microbiologyNeonatal intensive care unitInternal medicineDrug Resistance Multiple BacterialIntensive Care Units NeonatalGram-Negative BacteriamedicineHumansPharmacology (medical)lcsh:RC109-216030212 general & internal medicineNeonatal intensive care unit.Cross InfectionInfection ControlActive surveillance programbusiness.industryResearchPublic Health Environmental and Occupational HealthInfant NewbornAntimicrobialMulti-drug resistant gram-negative bacteriaElectrophoresis Gel Pulsed-FieldInfectious DiseasesCarriageItalyIntervention strategyCarrier StateFemaleSample collectionbusinessGram-Negative Bacterial Infectionsdescription
AbstractBackgroundAntimicrobial resistance in neonatal intensive care unit (NICU) patients is a threat, due to the frequent use of antimicrobial treatment and invasive devices in fragile babies. Since 2014 an active surveillance program of multidrug-resistant Gram-negative bacteria (MDR-GNB) carriage has been in place in the five NICUs of Palermo, Italy. In 2017 an increase in the prevalence of MDR-GNB, and in particular of extended-spectrum β-lactamases-producingKlebsiella pneumoniae(ESBL-KP), was observed in “Civico” hospital NICU.AimTo assess the impact of a coordinated intervention strategy in achieving long-lasting reduction of MDR-GNB prevalence in the NICU.MethodsRectal swabs were obtained monthly and processed to detect MDR-GNB using standard methods. MDR-GNB were characterized by pulsed-field gel electrophoresis (PFGE). Since November 2017 the following intervention measures were applied: (a) two-months intensification of sample collection; (b) stakeholders meetings; (c) improvement of prevention measures and antimicrobial policies.FindingsDuring the intensified microbiological surveillance MDR-GNB and ESBL-KP were detected in rectal swabs (34.8%; 23.2%), nasal swabs (24.6%; 14.5%), oral swabs (14.5%; 5.4%), milk samples (32.1%; 17.9%), pacifiers swabs (30.8%; 17.9%) and from sub-intensive room surfaces. Thirteen ESBL-KP strains isolated from clinical and environmental samples showed identical PFGE patterns. The prevalence of MDR-GNB and ESBL-KP carriage significantly decreased in the year after intervention compared to the previous year (20.6% vs 62.2%;p < 0.001 and 11.1% vs 57.8%;p < 0.001). MDR-GNB were not detected at all for three months and ESBL-KP for five months. Multivariate analysis of the principal exposure variables showed that admission in the post-intervention period significantly reduced the risk of MDR-GNB carriage (adj-OR = 0.21, 95% CI = 0.076–0.629;p < 0.001).ConclusionsMDR-GNB broadly circulate in NICU setting, they can colonize different body sites and spread through various vehicles. A coordinated strategy of multiple interventions with active cooperation between epidemiologists and clinicians in the NICU can effectively reduce their circulation and in particular the carriage of the most dangerous ESBL-KP strains.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-02-01 |