OBJECTIVE: To determine trends in late-onset neonatal infections and risk factors for ampicillin/penicillin-resistant microorganisms. STUDY DESIGN: Data on 584 infants with positive blood, urine or cerebrospinal fluid cultures for bacteria or fungi at 8-30 days of age from 1990 to 2007 were examined and divided into three epochs, based on intrapartum antibiotic prophylactic (IAP) practices. Pathogens and antibiotic resistance were compared among epochs. RESULT: The number of candidal infections increased over time for the entire population (P=0.006). There was an increased incidence of Gram-negative (P=0.009) and candidal infections (P=0.014) among very low-birthweight infants. Only Escherichia coli infections showed increasing ampicillin resistance over epochs (P=0.006). In regression analysis, ampicillin/penicillin resistance increased with IAP use (odds ratio 2.05). CONCLUSION: Changing microorganisms and increasing antibiotic resistance in late-onset neonatal infections are likely multifactorial but are increased with IAP use, which may identify an at-risk population. Increasing Candida infections require further investigation.
OBJECTIVE: To determine trends in late-onset neonatal infections and risk factors for ampicillin/penicillin-resistant microorganisms. STUDY DESIGN: Data on 584 infants with positive blood, urine or cerebrospinal fluid cultures for bacteria or fungi at 8-30 days of age from 1990 to 2007 were examined and divided into three epochs, based on intrapartum antibiotic prophylactic (IAP) practices. Pathogens and antibiotic resistance were compared among epochs. RESULT: The number of candidal infections increased over time for the entire population (P=0.006). There was an increased incidence of Gram-negative (P=0.009) and candidal infections (P=0.014) among very low-birthweight infants. Only Escherichia coli infections showed increasing ampicillin resistance over epochs (P=0.006). In regression analysis, ampicillin/penicillin resistance increased with IAP use (odds ratio 2.05). CONCLUSION: Changing microorganisms and increasing antibiotic resistance in late-onset neonatal infections are likely multifactorial but are increased with IAP use, which may identify an at-risk population. Increasing Candida infections require further investigation.
Authors: Melissa S Bauserman; Matthew M Laughon; Christoph P Hornik; P Brian Smith; Daniel K Benjamin; Reese H Clark; Cyril Engmann; Michael Cohen-Wolkowiez Journal: Pediatr Infect Dis J Date: 2013-03 Impact factor: 2.129
Authors: Stephen P Bergin; Joshua T Thaden; Jessica E Ericson; Heather Cross; Julia Messina; Reese H Clark; Vance G Fowler; Daniel K Benjamin; Christoph P Hornik; P Brian Smith Journal: Pediatr Infect Dis J Date: 2015-09 Impact factor: 3.806