Mark Baker MD, Laura Castro, MD, Julianna Diddle MD, Patricia Johnson DNP, MPH, APRN, NNP, Bikash Bhattarai PhD, Christine Wade, BSN, RN, Becky Micetic, BSN, RN, Kartik Mody, MD
Abstract:
Background: Neonatal sepsis is a serious condition caused largely by group B Streptococcus (GBS), Escherichia coli (E. Coli), and Listeria monocytogenes. Prenatal screenings have decreased the incidence of GBS infections; however, it remains a leading cause of early-onset sepsis (EOS). Gram-positive organisms are often the cause of late-onset sepsis (LOS). While EOS is usually attributed to vertical transmission from mother to infant, LOS is secondary to pathogen exposure during delivery or hospitalization. We sought to identify the prevalent organisms in positive blood cultures in our NICU.
Methods: A retrospective chart review was completed from July 2009 to December 2019. If an organism was identified, a positive culture was included, and five or more days of antibiotics were administered. Infection occurring in the first three days of life was considered EOS, while LOS was any time after. Variables were evaluated using Fisher’s exact and Wilcoxon rank-sum tests.
Results: Over ten years, there were 89 positive blood cultures. Of these, 28% of the cases were EOS, and 72% were LOS. Interestingly, the median birth weight for infants with EOS was significantly larger at 1810g compared to 1021g for LOS (P=0.004). The median gestational age for EOS cases was 31 5/7 weeks compared to 27 2/7 weeks for LOS (P=0.086).
Conclusions: Approximately half of EOS-causing organisms were GBS or E.Coli. Coagulase-negative staphylococcus and methicillin-susceptible Staphylococcus aureus were most prevalent in LOS.
Abbreviations
CoNS | Coagulase-Negative Staphylococcus |
DOL | Day of Life |
EOS | Early Onset Sepsis |
E. Coli | Escherichia coli |
GA | Gestational Age |
GBS | Group B Streptococcus |
LOS | Late-Onset Sepsis |
MRSA | Methicillin-Resistant Staphylococcus aureus |
MSSA | Methicillin-Susceptible Staphylococcus aureus |
Main points:
A ten-year review of sepsis in infants in NICU with positive cultures confirmed that over half of early-onset sepsis cases contained GBS and E.Coli. CoNS and MSSA were most prevalent in late-onset sepsis.
Keywords:
Neonatal Sepsis; Blood Culture; Intensive Care Units, Neonatal; Infant, Newborn;
Introduction:
Neonatal sepsis is a serious threat affecting the health and survival of infants worldwide. It occurs in 1-50 per 1000 live births and causes 3-30% of infant and child deaths yearly. (1) In the United States of America, the incidence of neonatal sepsis is 0.77-1.0 cases per 1000 live births but rises to a rate of 8-26 cases per 1000 live births for infants between 1000-1500 grams (g). (2) Research has consistently shown a strong inverse relationship between gestational age (GA) and the incidence of sepsis. (3-7)
Neonatal sepsis cases are categorized as early-onset sepsis (EOS) occurring within the first 72 hours of life or late-onset sepsis (LOS) developing after 72 hours with pathogens transmitted from the mother’s genitourinary system before, during, or shortly after birth as the usual the cause. (1-3,8-9) Risk factors include antenatal antibiotics, maternal chorioamnionitis, multiple pregnancies, maternal Group B Streptococcus (GBS) colonization, maternal urinary tract infection, delivery before 37 weeks GA, prolonged maternal rupture of membranes (greater than 18 hours), low 5-minute APGAR score, and those requiring ventilation on the first day of life (DOL). (2,4,8) Escherichia coli (E. coli) and GBS are consistently the leading causes of EOS in the United States, with a prevalence of 29-37% and 18-43%, respectively. (2,4,8-11 )This trend holds for most developed countries worldwide. (12- 18) Among infants infected with GBS, about one-quarter progress in developing meningitis requiring prolonged antibiotic treatment and hospitalization with increasing chances of morbidity. (19-20) Other less common EOS organisms include Listeria monocytogenes; other strains of streptococcus (pyogenes, viridans, pneumoniae); enterococci, staphylococci, and non-typeable Haemophilus influenzae. (2,4,8)
Late-onset sepsis (LOS) occurs after 72 hours of life and is usually caused by pathogens in the surrounding environment, often transmitted to the infant by parents or health care workers. (1,2,8) The risk factors include premature birth, being small for GA, antenatal antibiotic use, delivery via Cesarean section, prolonged use of invasive interventions, breakage in skin or mucosa, prolonged total parenteral nutrition dependence, delayed initiation of breastmilk feeding, surgery, cardiac/pulmonary abnormalities, necrotizing enterocolitis, H2-receptor blockage or proton pump inhibitor, and/or prolonged antibiotic use. (1,3,8,21) Coagulase-negative staphylococcus (CoNS) is the most common LOS pathogen in the United States of America, with other developed countries presenting similar results. (4,6,12-13,22-29)
Interestingly, each NICU has its microbiome, and specific pathogens are common as the cause of sepsis at each site. (5) The objective of our study was to identify the most prevalent types of organisms in blood cultures for both EOS and LOS in our NICU over ten years.
Methods:
Data were collected retrospectively from Valleywise Health Medical Center (formally known as Maricopa Medical Center), a 40-bed level III community NICU in Phoenix, Arizona, from July 2009 through December 2019. Researchers collected data on positive blood cultures using the Epic Electronic Health Record system (Epic Systems Corporation, Verona, WI). In the event of CoNS bacteremia, or another suspected contaminant, at least one positive blood culture and a full antibiotic treatment course with a clinical picture consistent with sepsis needed to be included. If there was a positive blood culture and it was not treated with antibiotics due to the absence of clinical sepsis, this was considered a contaminant and excluded. Infections were categorized as EOS if the septic workup occurred within the first three days of life, while LOS was defined as a sepsis workup initiated at DOL four or greater.
Statistical analysis included the association between categorical variables of EOS and LOS utilizing Fisher’s exact tests. The differences in continuous variables were examined using the Wilcoxon rank-sum test. Human protection oversight was provided by the Maricopa Health Institutional Review Board, later known as Valleywise Health Institutional Review Board.
[CLICK TO READ FULL OBSERVATIONAL STUDY RESULTS BELOW]
Conclusions:
In our study, the most common cause of EOS was E. coli, followed by GBS and ɑ-hemolytic streptococcus. This is in agreement with most NICU sepsis research. The most common cause of LOS was CoNS, which is consistent with most studies across the world, among all regions, races, and incomes.
This study’s strengths include a ten-year data collection period at a single medical center that serves a diverse population in one of the largest metropolitan areas in the United States of America. As this study was retrospective, its strength was in capturing the standard care practices occurring in the unit; however, this also may be seen as a limitation as to the decision of when to initiate a sepsis workup could have varied between providers in addition to the antimicrobials used in the event of positive blood culture.
Limitations of this study are the relatively small sample size, its execution at a single medical center that may not be representative of other NICUs, and that we did not focus on the effect that race and/or ethnicity may have played at our institution. A large-scale prospective study would be helpful to evaluate these findings further and assist with the generalizability to other NICUs.
Support was provided by Valleywise Health Medical Center, Pediatrix Medical Group, and Phoenix Children’s Hospital staff.
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Disclosures: The authors have no conflicts noted.