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Group B Streptococci A Newborn’s Greatest Threat?. Tracy Bumsted, MD, MPH. Scanning electron micrograph shows a human neutrophil binding to and phagocytosing group B streptococci that have been opsonized with a monoclonal antibody and complement. A few frightening facts….
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Group B StreptococciA Newborn’s Greatest Threat? Tracy Bumsted, MD, MPH
Scanning electron micrograph shows a human neutrophil binding to and phagocytosing group B streptococci that have been opsonized with a monoclonal antibody and complement.
A few frightening facts… • Many women carry GBS asymptomatically. • Infected newborns can get really sick, really fast and die. • Newborns are immunocompromised. • GBS are smart.
History • Isolated in 1887 • 1935 - Known to be associated with pregnancy and early newborn sepsis. • 1960’s – Increasing newborn infections attributed to GBS. • 1970’s – GBS emerged as predominant organism causing sepsis & meningitis in newborns. • 1990’s – Increased use of maternal abx in labor • 2002 – ACOG guideline for screening & chemoprophylaxis for GBS+ mothers.
Microbiology Facultative Gram-Positive Diplococci Can grow on variety of bacteriologic media
Classification Beta-hemolysis – differentiates Groups of Streptococci with different group-specific antigens within the cell wall. S. Pyogenes (GAS) S. Agalactiae (GBS) S. pnemoniae
Further Classification of GBS • Serotypes – based on type-specific capsular polysaccharides • GBS polysaccharides: • Glucose, Galactose, Glucosamine and • N-acetylneuraminic acid (sialic acid)
Epidemiology • Prior to maternal intrapartum chemoprophylaxis became widespread, attack rates for GBS disease in infants was 0.2 to 5.4 per 1000 live births (80% early-onset disease). • After maternal intrapartum chemoprophylaxis, this has dropped >65%
Maternal Colonization • 25-30% all women • Higher rates for women: • Younger than 20 years of age • Black (36.7%) > White > Asian (14%) • Lower educational level • Lower rates for women: • Multiparous (>2 pregnancies)
Screening Pregnant Women • Test at 35-37 weeks gestation, swab: • Distal vagina >>> cervix • Rectum – often the only source that is + Sensitivity >95% • Asymptomatic bacteriuria (>100K cfu/ml) is a surrogate for high genital innoculum and marker of increased risk of Early-Onset Disease (EOD)
Intrapartum Maternal Chemoprophylaxis • Can prevent vertical transmission of GBS from colonized mothers to their neonates (51 9% in one study) • Can prevent EOD (6 0% in one study) • Maternal febrile morbidity • No impact demonstrated on LOD
Intrapartum Maternal Chemoprophylaxis • If GBS+ by culture, or +risk factors: • Chemoprophylaxis begins at hospital admission for delivery or at ROM • IV Penicillin G 5 million U x 1, then 2.5 million U IV q4 hours until delivery • If pen-allergic, can use IV clinda or ancef
Intrapartum Maternal Chemoprophylaxis • Risk Factors for increased EOD: • Previous delivery of infant with GBS disease • GBS bacteriuria during pregnancy • Preterm labor or ROM <37 weeks gestation • ROM >18 hours before delivery • Intrapartum fever (>38), suspicion of chorio
Infant Colonization • Infants acquire GBS via vertical transmission • Ascending route through ruptured membranes
Infant Colonization • Infants acquire GBS via vertical transmission • Contact with GBS in the genital tract during delivery
Infant Colonization • Single factor most clearly associated with likelihood of vertical transmission and subsequent neonatal colonization is the number of organisms (inoculum) in the maternal genital tract.
Risk Factors for Infant EOD Must have vertical transmission • Heavily colonized mother • Preterm labor <37 weeks gestation • PROM • ROM >18 hours before delivery any gestation • Intrapartum maternal fever >38; chorioamnionitis
Risk of Infant Disease Asymptomatic colonized mother Vertical transmission in utero or during birth Newborn Ill 50% 1 - 2% >90% by 12 hours of life Resp sx’s predominate: Apnea, Grunting, Tachypnea, Cyanosis
Maternal Factors Affecting Vertical Transmission • Bacterial inoculum in genital tract • Preterm labor (?caused by heavy inoculum) • Maternal antibody to the serotype-specific polysaccharide capsule of colonizing strain • ?younger mothers may not have this antibody so cannot passively protect their fetuses.
Bacterial Factors Affecting Vertical Transmission and EOD • Adherance to epithelium: Sticky fingers • Vaginal • Chorioamniotic membranes • Infant lung (after infant aspirates infected maternal amniotic fluid) • Infant endothelial cells
Bacterial Factors Affecting Vertical Transmission and EOD • Capsular polysaccharide • Thought to confer virulence by interfering with opsonophagocytosis • Presence of the terminal sialic acid residue: • Prevents deposition of C3 • Prevents activation of the alternative complement pathway (primary pathway used by human host when type-specific Ab is lacking) • Interferes with leukotriene B and C5a, potent neutrophil chemoattractants
Infant Factors Affecting EOD • Neutrophils • Primary defense against extracellular bacterial pathogens • Impaired migration to a chemotactic stimulus • Storage pools quickly depleted in neonates with invasive infection, leading to profound neutropenia, more pronounced in premature infants
Infant Factors Affecting EOD • Macrophages • First effector cell to encounter pathogens • Alveolar macrophage in lung • Diminished migration to site of infection
Infant Factors Affecting EOD Humoral Immunity Complement Pathway • Impaired opsonization Passive placental transfer of IgG • Increases dramatically in final 8 weeks of pregnancy
Disease Manifestations • Bacteremia/Sepsis: 27-87% EOD • Meningitis: 6-15% EOD, often no WBC in CSF • Pneumonia: “common” • Septic Arthritis: mean age 20 days; hips, LE • Osteomyelitis: 5% of LOD, mean age 9 days; proximal humerus, femur • Cellulitis/Adenitis: 2% LOD; mean age 5 weeks; face & neck swelling, LAD
Late Late-Onset Disease? • Seen more in association with immunodeficiency (HIV, transient hypogammaglobulinemia)
Other Pearls • 10-38% of newborns with GBS meningitis have negative BCx so CSF is important to determine meningeal involvement • 24% of infants with cellulitis/adenitis who had LPs grew GBS from CSF
Other Pearls • CBC of septic babies can show leukopenia, neutropenia or leukocytosis • Increased I:T ratio – immature:total neutrophils has been shown to be a reliable index for distinguishing resp distress caused by GBS vs. a non-infectious etiology
Other Pearls • Neutropenia = ANC <1800 ANC = WBC x (%segs+bands+metamyelos) • I:T ratio = (%bands+metas) / (segs+band+metas) Elevated I:T ratio = >0.3
Laboratory Evaluation • BCx • CBC with manual differential • CXR • LP
Empiric Treatment • Ampicillin IV 300 mg/kg/day • Gentamicin • If neonate if getting empiric vanco, should also give ampicillin because vanco does not penetrate CSF well without inflammation • Fluid resuscitation for poor perfusion/acidosis
Empiric Treatment • Transfer to DNCC for prompt, supportive care of respiratory failure and shock • Surfactant to improve gas exchange for infected premature neonates • May develop persistant pulmonary HTN and need ECMO.
Sobering Prognosis • Faster time to dx and tx improves outcomes • Mortality 2-8% all cases • Mortality >20% premature babies • Sepsis survivors: some PVL with ND sequelae • Meningitis survivors: 20-30% permanent neurologic sequelae (MR, blindness, spasticity, paresis) • Bone/Joint infx: most are excellent with early surgical intervention
Got It? Get It? Good. • GBS is a common colonizing organism. • Maternal, Infant and Bacterial factors all affect transmission and development of disease. • Infants usually present with respiratory symptoms, but also can have lethargy, poor feeding, abdominal distention, pallor, tachycardia and jaundice. • Fever usually in term newborns; Hypothermia in preterm babies.
Got It? Get It? Good. • Many clinical manifestations, especially in late-onset disease. • Get full ROS lab evaluation. • Treat with amp and gent, plus supportive care. • Prognosis can be poor, especially with delayed diagnosis. • Prevention is possible