lewis-x-antigen and Pre-Eclampsia

Fetal hypoxic events with unclear predictive value are a common indication for placenta examination. We evaluated whether the use of CD15 immunostaining can improve the assessment of severity and duration of fetal hypoxia.. We compared placentas (37-42 gestational weeks) from stillborns/newborns with birth asphyxia (BA) and non-hypoxic newborns. Placental findings were studied in following groups: (1) acute BA (n = 11) due to placental abruption, (2) non-acute BA (n = 121) due to non-acute conditions, (3) non-BA (n = 46) in pregnancies with preeclampsia and gestational diabetes, and (4) controls (n = 30).. A high expression of CD15 in feto-placental resistance vessels (FRVs) was present in non-acute BA (95.9%), but absent in acute BA, non-BA and controls (p < 0.0001). Furthermore, we found no causal relationship of high expression of CD15 in FRVs to coexisting placental conditions, including severity and mechanisms/patterns of placental injury, fetal erythroblastosis, and maternal conditions. According to a multivariate analysis, only a high expression of CD15 in FRVs was independently associated with severe non-acute fetal hypoxia ([OR] = 15.52; 95% [CI] = 5.92-40.67).. We have defined a characteristic pattern of CD15 expression in FRVs that allows to interpret various clinical/placental conditions with respect to fetal hypoxia, with an improved predictability compared to conventional analyses. This approach represents a novel diagnostic strategy for placenta examination, which could indirectly assess severity and duration of intrauterine hypoxia in a heterogeneous population of newborns.

Topics: Adult; Female; Fetal Hypoxia; Humans; Immunohistochemistry; Infant, Newborn; Lewis X Antigen; Placenta; Pre-Eclampsia; Pregnancy; Retrospective Studies

Structural or functional defects in the placenta, are the primary cause of growth restriction of the fetus. Morphological examination of such placentas from intrauterine growth restricted (IUGR) fetuses often appears deceptively normal. Evaluation of angiogenesis and fetoplacental vasculature is critical to understand the underlying pathogenesis of fetal growth restriction in both idiopathic as well as cases where it is thought to be secondary to complications like preeclampsia (PE). We analyzed the immaturity of fetoplacental vasculature using CD15, which is a stage specific embryonic antigen known to be expressed in immature endothelium.. One hundred and twelve placentas (81 from IUGR and 31 from gestationally appropriate samples (appropriate for gestational age (AGA)) were collected based on stringent inclusion criteria, and subjected to detailed examination of morphology and microscopy along with immunostaining for CD15. IUGR placentas known to have villous immaturity such as those associated with gestational diabetes, Rh negative pregnancies and anemia were excluded. The time of clinical onset of IUGR, associated complications like PE and oligohydramnios along with clinical variables were recorded. CD15 expression was scored in both distal and proximal vasculature and the values in IUGR and AGA pregnancies were compared and correlated with clinical variables.. The mean CD 15 scores in both proximal vasculature (PV) as well as distal (DV) vasculature were significantly higher in the IUGR group compared to AGA (17.7 versus 5.16 in PV and 50.8 versus 23.7 in distal vasculature (DV)). Gestational age had no influence on CD15 staining in PV or DV in IUGR group, whereas preterm AGAs expressed higher CD15 only in the distal vessels. PE, oligohydramnios and the time of onset of IUGR did not influence the fetal vascular immaturity, as measured by CD15 scores. Although none of the clinical or obstetric factors influenced CD15 staining in AGA, fetal vessel immaturity in the IUGR group remained high even after adjusting for confounding variables like maternal age, gestational age and birth weight. Histological features suggestive of chronic hypoxia were significantly higher in IUGR placentas, compared to AGA and correlated positively with CD15 expression.. Fetoplacental endothelium in both PV and DV is immature in IUGR irrespective of the gestational age or any other associated factors and CD15 immunodetection is a valuable marker for assessment of immaturity.

Topics: Adult; Biomarkers; Case-Control Studies; Endothelium, Vascular; Female; Fetal Growth Retardation; Fucosyltransferases; Gestational Age; Humans; Infant, Newborn; Lewis X Antigen; Oligohydramnios; Placenta; Pre-Eclampsia; Pregnancy; Young Adult

Placental growth and villous maturation are critical parameters of placental function at the end of pregnancy. A failure in these processes leads to the development of placental dysfunction, as well as fetal and neonatal mortality and morbidity. The aim of the study was to determine the relevant diagnostic markers associated with pathological placental development.. Forty tissue samples from normal placentas of different gestational age and 68 pathological term placentas with defective villous maturation (GDM, idiopathic IUFD, preeclamsia, HELLP syndrome) comprised the comparative immunohistochemical study (CD15, CD45 and CD34). Positive immunohistochemical reactions were quantitatively assessed in the chorionic plate and vessels of the villi of different histological type.. Physiologically immature placentas of the first and second trimester and pathologically immature term placentas were characterized by marked endothelial CD15-immunostaining. A significant loss of CD15-positive endothelium of the placentas was associated with a physiological and accelerated villous maturity. A spatio-temporal correlation was shown for CD15+ endothelial cells (ECs) and the number of CD45+ stromal cells (SCs). A negative temporal correlation was shown for CD15+ ECs and CD15+ myelomonocytes in the fetal blood. CD34 expression in the ECs was stable during the pregnancy.. A correlation between a transient CD15-positive endothelial phenotype and a physiological and pathological fetoplacental immaturity was demonstrated. Physiological and accelerated placental maturation was accompanied by a significant disappearance of CD15-positive endothelium. We propose that "immature" CD15+ endothelium is an important diagnostic marker of the physiological and pathological fetoplacental immaturity.

Topics: Adult; Antigens, CD34; Case-Control Studies; Diabetes, Gestational; Endothelial Cells; Female; Fetal Growth Retardation; Fucosyltransferases; Gestational Age; HELLP Syndrome; Humans; Immunohistochemistry; Leukocyte Common Antigens; Lewis X Antigen; Placenta; Placentation; Pre-Eclampsia; Pregnancy