Neonatal Bacterial Colonization Study

Overview

This study will evaluate the effect of skin antisepsis and/or emollient therapy on bacterial colonization dynamics in very low birth weight, hospitalized infants. Bacterial swabs from 5 body sites will be collected at baseline, day 3, day 8 and day 13 following study arm assignment. Study outcomes include changes in bacterial colony counts, burden of gram-negative and gram-positive pathogens and overall skin score.

Despite substantial global decline in childhood mortality rates, equivalent progress in neonatal mortality reduction has not been achieved. Severe bacterial infection affects approximately 6.9 million neonates and causes an estimated 750 000 deaths in low-middle income countries (LMIC) annually. The neonatal period extends from birth to 28 days of life, although neonatal hospitalization episodes (and therefore infection risk) are often substantially prolonged in preterm infants. In South Africa, infections account for 13.8% of neonatal mortality (following prematurity and intrapartum hypoxia). The South African Perinatal Problem Identification Programme (PPIP) cites nosocomial infection as the second most prevalent avoidable factor in neonatal deaths. Developing new approaches to prevent infection in hospitalized and preterm newborns in LMIC is key to achieving the Sustainable Development targets for under-five child survival. The risk for hospital-onset sepsis in African neonates is disproportionately high and influenced by many factors including: high rates of prematurity and low birth weight; increasing in-hospital births, understaffing of maternity and neonatal services and limited implementation of infection prevention practices. Of infections among hospitalized neonates in high-income settings, hospital-acquired bloodstream infections (HA-BSI) predominate, accounting for 57% of infections. Research addressing the problem of hospital-onset neonatal infection should therefore focus on BSI prevention. A key target for sepsis reduction is prevention of intrapartum and post-delivery acquisition of bacterial colonization. Although the pathogenesis of bacterial colonization preceding invasive infection is well-accepted, there is limited data describing neonatal bacterial colonization dynamics in low-resource settings. Full characterization of timing, source and route of bacterial acquisition, flora/pathogen distribution, balance and changes over time is needed to identify all potential targets for neonatal BSI prevention. Emollient therapy and reduction of pathogen colonization through skin antisepsis, are potentially useful targets for reducing risk of hospital-acquired BSI in neonates. Emollients (oils, creams and ointments) have been applied daily or bi-daily in neonatal research and routine practice settings, to promote skin integrity in preterm infants \<37 weeks' gestation. The postulated mechanism of effect is improved skin barrier function and promotion of normal flora colonization, which may prevent pathogen ingress and subsequent invasive infection. A 2016 Cochrane review of emollient therapy for sepsis prevention in preterm infants found no evidence of reduced mortality or bloodstream infection rates, but the authors concluded that further studies in low-resource settings were warranted. Chlorhexidine gluconate (CHG) is a bisbiguanide molecule with broad-spectrum antiseptic activity producing membrane disruption through increased cell permeability and bacterial lysis. Efficacy and safety of daily CHG bathing to prevent pediatric bacteremia was established in a multicenter, cluster-randomized trial for infants \>2 months in intensive care (ICU) using 2% CHG-impregnated cloths. Three high-quality studies of newborn CHG skin or cord cleansing showed reduced neonatal mortality and omphalitis in community-based neonates. Safety of topical CHG application for neonates has been established at concentrations ≤1%, although there is little data available on its use in premature, hospitalized neonates. CHG skin cleansing and emollient therapy are potentially useful interventions for prevention of hospital-acquired BSI in neonates from low-resource settings. In addition, these interventions are suitable for inclusion in a neonatal sepsis prevention care bundle, should they be found to be effective, safe and feasible. In addition these interventions would be low-cost, easily scalable and potentially, a maternally-administered intervention. This study will evaluate the effect of skin antisepsis and/or emollient therapy on bacterial colonization dynamics in very low birth weight, hospitalized infants. Bacterial swabs from 5 body sites will be collected at baseline, day 3, day 8 and day 13 following study arm assignment. Study outcomes include changes in bacterial colony counts, burden of gram-negative and gram-positive pathogens and overall skin score.

Conditions

Interventions

Eligibility

Locations (1)

Outcomes

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