BACKGROUND: Cytomegalovirus (CMV) is the major cause of congenital infection and disease leading to permanent birth defects. In about 35-40% of pregnant women with primary CMV infection, virus crosses the placenta, resulting in the birth of congenitally infected babies. In contrast, this happens in only 1-3% of seropositive women with strong CMV-specific humoral immunity. Whether CMV reaches the fetus and disseminates depends on the level of high-avidity antibodies in the maternal circulation and the passive immunity of the fetus. OBJECTIVES AND STUDY DESIGN: To identify CMV infection in uncomplicated deliveries based on detection of viral DNA in placental biopsy specimens at term. To quantify CMV-specific IgG avidity, neutralizing titer, IgG1 concentration, and characterize the immunoblot profiles for CMV proteins in paired samples of placental and cord blood sera. RESULTS: In accord with earlier reports, CMV DNA was detected in 39% (11/28) of placentas with mean- to high-avidity CMV-specific IgG. In seropositive women, the concentration of antiviral antibodies, specifically IgG1, increased in the fetal bloodstream, and CMV neutralizing titers in maternal and fetal blood were comparable. CONCLUSIONS: CMV-specific, high-avidity neutralizing antibodies from maternal circulation are transcytosed to the fetal bloodstream, contribute to suppression of viral replication in the placenta and could prevent congenital disease.
BACKGROUND:Cytomegalovirus (CMV) is the major cause of congenital infection and disease leading to permanent birth defects. In about 35-40% of pregnant women with primary CMV infection, virus crosses the placenta, resulting in the birth of congenitally infected babies. In contrast, this happens in only 1-3% of seropositive women with strong CMV-specific humoral immunity. Whether CMV reaches the fetus and disseminates depends on the level of high-avidity antibodies in the maternal circulation and the passive immunity of the fetus. OBJECTIVES AND STUDY DESIGN: To identify CMV infection in uncomplicated deliveries based on detection of viral DNA in placental biopsy specimens at term. To quantify CMV-specific IgG avidity, neutralizing titer, IgG1 concentration, and characterize the immunoblot profiles for CMV proteins in paired samples of placental and cord blood sera. RESULTS: In accord with earlier reports, CMV DNA was detected in 39% (11/28) of placentas with mean- to high-avidity CMV-specific IgG. In seropositive women, the concentration of antiviral antibodies, specifically IgG1, increased in the fetal bloodstream, and CMV neutralizing titers in maternal and fetal blood were comparable. CONCLUSIONS: CMV-specific, high-avidity neutralizing antibodies from maternal circulation are transcytosed to the fetal bloodstream, contribute to suppression of viral replication in the placenta and could prevent congenital disease.
Authors: D E Noyola; G J Demmler; C T Nelson; C Griesser; W D Williamson; J T Atkins; J Rozelle; M Turcich; A M Llorente; S Sellers-Vinson; A Reynolds; J F Bale; P Gerson; M D Yow Journal: J Pediatr Date: 2001-03 Impact factor: 4.406
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