Streptococcus agalactiae, often referred to as Group B Streptococcus (GBS), is a gram-positive bacterium found in the rectum and vagina of approximately 25% of pregnant women (1). While GBS is an asymptomatic colonizer of most healthy adults, it can cause severe infections in neonates, including sepsis, pneumonia, and meningitis (2, 3). GBS early onset disease (EOD) are infections that occur in the first week of life and can be extremely dangerous to the newborn; EOD occurred in 3 per 1000 live births and was associated with a high mortality rate prior to the 1990s (4). Due to the high neonatal mortality rate caused by GBS infections, the Centers for Disease Control (CDC) implemented a universal guideline in 1996 which recommended screening of all pregnant women at 35–37 weeks of gestation and administration of intrapartum prophylaxis in pregnant women that tested positive (1, 5).
Despite these guidelines, infection with GBS remains a leading cause of morbidity in neonates born in the United States and therefore the implementation of more rapid and sensitive screening techniques for GBS detection may further reduce transmission of GBS infection intrapartum (1, 6, 7). The current gold standard for GBS detection is enrichment of the primary specimen, a vaginal-rectal swab, followed by subculture onto a blood agar plate with phenotypic characterization (1). This gold standard method has a long turnaround time, and sensitivity is only 54-87% (8, 9). Furthermore, bacterial culture requires an experienced technician to further identify and test characteristics of GBS such as agglutination and beta hemolysis (1).
Although culture remains the gold standard in GBS diagnostics, the 2010 CDC revision for GBS testing allows for nucleic acid amplification tests (NAAT) such as polymerase chain reaction (PCR) as an option for GBS testing (1). A PCR method based on amplification of the CAMP factor encoding gene (cfb), a fragment that is present in nearly all GBS strains, was developed by Ke et al. (3) in 2000. Since then, several rapid and sensitive DNA probes and NAAT assays for GBS have been developed and approved or cleared by the Food and Drug Administration (FDA) (3, 10, 11). In our study, we report a clinical comparison of two FDA cleared NAATs for the detection of GBS in antepartum women: Xpert GBS LB (Cepheid Inc., Sunnyvale, CA, USA) and a novel recently FDA-cleared test, Revogene GBS LB (Meridian Bioscience, Québec City, Canada). Both systems perform an automated nucleic acid extraction, real-time PCR amplification, and detection of the target nucleic acid sequences after LIM broth enrichment (12, 13).