Raymond W. Redline

Amniotic Infection Syndrome: Nosology and Reproducibility of Placental Reaction Patterns

Clinically responsive placental examination seeks to provide useful information regarding the etiology, prognosis, and recurrence risk of pregnancy disorders. The purpose of this study was to assemble and validate a complete set of the placental reaction patterns seen with amniotic fluid infection in the hope that this might provide a standardized diagnostic framework useful for practicing pathologists. Study cases (14 with amniotic fluid infection, 6 controls) were reviewed blindly by six pathologists after agreement on a standard set of diagnostic criteria. After analysis of initial results, criteria were refined and a second, overlapping set of cases were reviewed. Majority vote served as the gold standard. Grading and staging of maternal and fetal inflammatory responses was found to be more reproducible using a two- versus three-tiered grading system than a three- versus five-tiered staging system (overall agreement 81% vs. 71%). Sensitivity, specificity, and efficiency for individual observations ranged from 67–100% (24/30 > 90%). Reproducibility was measured by unweighted kappa values and interpreted as follows: < 0.2, poor; 0.2–0.6, fair/moderate; > 0.6, substantial. Kappa values for the 12 lesions evaluated in 20 cases by the six pathologists were: acute chorioamnionitis/maternal inflammatory response (any, 0.93; severe 0.76; advanced stage, 0.49); chronic (subacute) chorioamnionitis (0.25); acute chorioamnionitis/fetal inflammatory response (any, 0.90; severe, 0.55; advanced stage, 0.52); chorionic vessel thrombi (0.37); peripheral funisitis (0.84); acute villitis (0.90); acute intervillositis/intervillous abscesses (0.65), and decidual plasma cells (0.30). Adoption of this clearly defined, clinically relevant, and pathologically reproducible terminology could enhance clinicopathologic correlation and provide a framework for future clinical research.

Fusobacterium nucleatum Induces Premature and Term Stillbirths in Pregnant Mice: Implication of Oral Bacteria in Preterm Birth

ABSTRACT Fusobacterium nucleatum is a gram-negative anaerobe ubiquitous to the oral cavity. It is associated with periodontal disease. It is also associated with preterm birth and has been isolated from the amniotic fluid, placenta, and chorioamnionic membranes of women delivering prematurely. Periodontal disease is a newly recognized risk factor for preterm birth. This study examined the possible mechanism underlying the link between these two diseases. F. nucleatum strains isolated from amniotic fluids and placentas along with those isolated from orally related sources invaded both epithelial and endothelial cells. The invasive ability may enable F. nucleatum to colonize and infect the pregnant uterus. Transient bacteremia caused by periodontal infection may facilitate bacterial transmission from the oral cavity to the uterus. To test this hypothesis, we intravenously injected F. nucleatum into pregnant CF-1 mice. The injection resulted in premature delivery, stillbirths, and nonsustained live births. The bacterial infection was restricted inside the uterus, without spreading systemically. F. nucleatum was first detected in the blood vessels in murine placentas. Invasion of the endothelial cells lining the blood vessels was observed. The bacteria then crossed the endothelium, proliferated in surrounding tissues, and finally spread to the amniotic fluid. The pattern of infection paralleled that in humans. This study represents the first evidence that F. nucleatum may be transmitted hematogenously to the placenta and cause adverse pregnancy outcomes. The results strengthen the link between periodontal disease and preterm birth. Our study also indicates that invasion may be an important virulence mechanism for F. nucleatum to infect the placenta.

Maternal Vascular Underperfusion: Nosology and Reproducibility of Placental Reaction Patterns

Placental examination can be a useful tool for specifying the etiology, prognosis, and recurrence risk of pregnancy disorders. The purpose of this study was to test the reliability of a predetermined set of placental reaction patterns seen with maternal vascular underperfusion in the hope that this might provide a useful diagnostic framework for practicing pathologists. Study cases (14 with clinical and pathologic evidence of maternal underperfusion plus 6 controls) were evaluated for the presence or absence of 11 lesions by eight perinatal pathologists. After analysis of initial results, diagnostic criteria were refined and a second, overlapping set of cases was reviewed. The collective sensitivity, specificity, and efficiency of individual assessments for the 11 lesions relative to the group consensus ranged from 74–93% (22/33 > 90%). Reproducibility was measured by unweighted kappa-values and interpreted as follows: < 0.2 poor, 0.2–0.6 fair/moderate, > 0.6 substantial. Kappa values for lesions affecting villi and the intervillous space were increased syncytial knots (any −0.42, severe −0.50), villous agglutination (0.42), increased intervillous fibrin (0.25), and distal villous hypoplasia (0.57). Individual estimates of percent involvement for syncytial knots, intervillous fibrin, and distal villous hypoplasia were correlated with placental and fetal weight for gestational age. Extent of increased intervillous fibrin showed the strongest correlation with both placental weight (R = −0.64) and fetal weight (R = −0.45). Kappa values for lesions affecting maternal vessels and the implantation site were acute atherosis (0.50), mural hypertrophy of membrane arterioles (0.43), muscularized basal plate arteries (0.48), increased placental site giant cells (0.54), and immature intermediate trophoblast (0.36). Correlation of maternal vessel and implantation site lesions with the clinical diagnosis of preeclampsia showed that excessive placental site giant cells and immature intermediate trophoblast were more sensitive and efficient predictors, whereas atherosis and muscularized basal plate arteries were more specific. Kappa value for a thin umbilical cord, a possible indicator of fetal volume depletion, was 0.61. Reproducibility for a global impression of maternal vascular underperfusion, taking into account all of the above lesions, was moderate (kappa 0.54) and improved after inclusion of additional pathologic and clinical data (kappa 0.68). Adoption of this clearly defined, clinically relevant, and pathologically reproducible terminology could enhance clinicopathologic correlation and provide a more objective framework for future clinical research.

Fetal Vascular Obstructive Lesions: Nosology and Reproducibility of Placental Reaction Patterns

The purpose of this study was to assemble and test the reliability of a complete set of the placental reaction patterns seen with chronic fetal vascular obstruction in the hope that this might provide a standardized diagnostic framework useful for practicing pathologists. Study cases (14 with fetal vascular obstructive lesions, 6 controls) were reviewed blindly by seven pathologists after agreement on a standard set of diagnostic criteria. Majority vote served as the gold standard and 80% of the 180 diagnoses rendered (9 diagnoses each for 20 cases) were agreed upon by at least six of the seven scores. The sensitivity of individual diagnosis relative to the group consensus averaged 83% (range, 69–100%) and specificity averaged 91% (range, 86–100%). Reproducibility was measured by unweighted kappa-values and interpreted as follows: < 0.2, poor; 0.2–0.6, fair/moderate; > 0.6, substantial. Kappa values for lesions of distal villi were generally superior to those for lesions involving large fetal vessels: avascular villi (0.49), villous stromal-vascular karyorrhexis (0.58), and villitis of unknown etiology (VUE) with stem villitis and avascular villi (0.65) versus large vessel thrombi (any vessel, 0.34; chorionic plate vessel, 0.40) and intimal fibrin cushions (recent, 0.47; remote, 0.78). Reproducibility for a global impression of any villous change consistent with chronic fetal vascular obstruction was substantial (0.63), while that for a more severe subgroup was moderate (0.44). Three points are worthy of emphasis. Our system separately recognizes, but later combines, uniformly avascular villi and villous stromal-vascular karyorrhexis as manifestations of the same underlying process. We propose that this combined group of villous lesions be dichotomized with the terms fetal thrombotic vasculopathy or extensive avascular villi (and/or villous stromal-vascular karyorrhexis) being reserved for the group with 15 or more affected terminal villi per section. Scattered foci of avascular villi (and/or villous stromal-vascular karyorrhexis) could be used to describe less severe cases. Finally, we distinguish VUE with stem villitis and avascular villi (obliterative fetal vasculopathy) as a distinct process with substantial perinatal morbidity.

Placental lesions associated with cerebral palsy and neurologic impairment following term birth.

OBJECTIVE The aim of this study was to determine the association of placental findings with cerebral palsy and related forms of neurologic impairment (NI) following birth at > or =37 weeks gestation (term). DESIGN In a retrospective comparison, placentas from 40 term infants with NI ascertained on the basis of clinicopathologic review for medicolegal consultation were compared with placentas from 176 consecutive meconium-stained term infants at low risk for NI. RESULTS After stratification for severity, 9 lesions were significantly increased in placentas from infants with NI: 5 lesions generally considered to occur within days of the time of labor and delivery (meconium-associated vascular necrosis, severe fetal chorioamnionitis, chorionic vessel thrombi, increased nucleated red blood cells, and findings consistent with abruptio placenta) and 4 lesions generally believed to have their onset long before labor and delivery (diffuse chronic villitis, extensive avascular villi, diffuse chorioamnionic hemosiderosis, and perivillous fibrin). Findings independently associated with NI by logistic regression in this descriptive study were severe fetal chorioamnionitis (odds ratio [OR], 13.2; 95% confidence interval [CI], 1.2-144); extensive avascular villi (OR, 9.0; 95% CI, 1.6-51); and diffuse chorioamnionic hemosiderosis (OR, 74.8; 95% CI, 6.3-894). The risk of NI increased as a function of the number of lesions present (OR, 10.1; 95% CI, 5.1-20 for each additional lesion), particularly when lesions generally considered to occur near the time of labor and those believed to occur well before labor were found in the same placenta (OR, 94.2; 95% CI, 11.9-747). CONCLUSIONS These findings suggest that placental pathology can contribute to an understanding of the mechanisms that contribute to NI at term.

Fetal thrombotic vasculopathy: The clinical significance of extensive avascular villi

Thrombosis of large fetal vessels in the placenta leads to regions of downstream avascular villi (AV). Avascular villi have been associated with adverse outcomes in anecdotal reports, but no controlled study of their significance has been done. We prospectively gathered cases of extensive AV (n = 29) occurring over a 2-year period at the Institute of Pathology at Case Western Reserve University and compared obstetric history, coexistent placental pathology, and neonatal outcome to gestational age-matched controls in a case control study. The diagnosis of extensive AV required one or more of the following characteristics: 2.5% or more of total villous parenchyma affected, foci in multiple sections, or a single lesion measuring 0.25 cm2 or larger. Women with AV placentas had increased rates of intrauterine growth retardation (IUGR), acute and chronic monitoring abnormalities, oligohydramnios, and maternal coagulation disorders. Placentas with AV were more likely to have coexistent chronic villitis, membrane hemosiderin, meconium in all three membrane layers, and villous chorangiosis. Finally, among the subgroup of neonates older than 34 weeks gestation without congenital malformations or coexistent placental pathology (n = 18), we identified significant abnormalities, including major thrombotic events (n = 5), neonatal death (n = 2), umbilical artery pH less than 7.10 (n = 4), platelet count less than 150,000 (n = 4), increased nucleated red blood cell (NRBC) counts (n = 7), and transient hypoglycemia (n = 4). Placental features correlating with clinical abnormalities included percentage of greater than 30% AV, recent platelet and fibrin aggregates, and multifocal disease involving more than one histological section.

Perinatal Correlates of Cerebral Palsy and Other Neurologic Impairment Among Very Low Birth Weight Children

Background and Objective. The etiology of neurologic impairments among very low birth weight (VLBW, <1.5 kg) children is poorly understood. We sought to investigate the perinatal predictors of major neurologic impairment, including cerebral palsy, among VLBW children. Methods. Antenatal, intrapartum, and neonatal events and therapies were compared between 72 singleton inborn VLBW children born between 1983 to 1991 who had neurologic impairment at 20 months corrected age (including 50 with cerebral palsy and 22 with other neurologic impairments) and 72 neurologically normal VLBW children matched by birth weight, gestational age, race, and sex via a retrospective case-control method. Multiple logistic regression was conducted, entering only those variables found to be significant at the bivariate level. Results. There were no significant differences in the rates of pregnancy-induced hypertension, maternal tocolytic use including magnesium, or antenatal steroid therapy. Higher rates of clinical chorioamnionitis were found among the mothers of the neurologically impaired children as compared with controls (31% vs 11%), but not among the subgroup of mothers of children with cerebral palsy (22% vs 12%). Significant differences in neonatal factors among the total neurologically-impaired group (n = 72) versus controls included oxygen dependence at 36 weeks (31% vs 15%), septicemia (53% vs 31%), severe cranial ultrasound abnormality (50% vs 17%), and hypothyroxinemia (43% vs 25%). In the subgroup with cerebral palsy (n = 50), significant differences included days on the ventilator (23 vs 14 days), septicemia (54% vs 33%), and severe cranial ultrasound abnormality (52% vs 12%). Multivariate analysis controlling for birth weight, gestational age, race, sex, and the birth period (before 1990 versus 1990 and after) revealed direct and independent effects of clinical chorioamnionitis [odds ratio (OR), 3.79; confidence interval (CI), 1.34–10.78], severe cranial ultrasound abnormality (OR, 9.97; CI, 3.84–25.87), and septicemia (OR, 2.46; CI, 1.10–5.52) on total neurologic impairment. Consideration of the 50 cases with cerebral palsy revealed direct and independent effects of severe cranial ultrasound abnormality only (OR, 15.01; CI, 4.34–51.93). Conclusions. Both antenatal and neonatal risk factors contribute to the development of severe neurologic impairment, including cerebral palsy among VLBW children. Because prevention of chorioamnionitis may not be feasible in the near future, attempts to decrease neonatal risk factors such as severe cranial ultrasound abnormalities and sepsis may be most feasible at this time.

microRNA-181a has a critical role in ovarian cancer progression through the regulation of the epithelial-mesenchymal transition.

Ovarian cancer is a leading cause of cancer deaths among women. Effective targets to treat advanced epithelial ovarian cancer (EOC) and biomarkers to predict treatment response are still lacking because of the complexity of pathways involved in ovarian cancer progression. Here we show that miR-181a promotes TGF-β-mediated epithelial-to-mesenchymal transition via repression of its functional target, Smad7. miR-181a and phosphorylated Smad2 are enriched in recurrent compared with matched-primary ovarian tumours and their expression is associated with shorter time to recurrence and poor outcome in patients with EOC. Furthermore, ectopic expression of miR-181a results in increased cellular survival, migration, invasion, drug resistance and in vivo tumour burden and dissemination. In contrast, miR-181a inhibition via decoy vector suppression and Smad7 re-expression results in significant reversion of these phenotypes. Combined, our findings highlight an unappreciated role for miR-181a, Smad7, and the TGF-β signalling pathway in high-grade serous ovarian cancer.

Vaccination of mice against H pylori induces a strong Th-17 response and immunity that is neutrophil dependent.

BACKGROUND & AIMS Vaccine efficacy against gastric Helicobacter pylori infection has been shown in mice, but little is known about the mechanisms of bacterial clearance. Our aim was to investigate a possible T-cell/neutrophil pathway of vaccine-induced protection. METHODS Nonimmune and immunized mice were compared for their response to H pylori challenge. T-cell responses were assessed by recall assays. Interleukin (IL)-17-induced chemokine production was evaluated by cytokine enzyme-linked immunosorbent assay. In a kinetic study, biopsy specimens were collected at multiple time points postchallenge and assessed for bacterial load and inflammation. Relative levels of T cells, IL-17, interferon gamma, MIP-2, KC, and LIX were determined by quantitative polymerase chain reaction. The role of neutrophils was evaluated by antibody-mediated depletion of neutrophils following challenge. RESULTS Immunization induced strong interferon gamma- and IL-17-producing T-cell responses, and IL-17 was capable of inducing significant amounts of KC and MIP-2 from dendritic cells, macrophages, fibroblasts, and gastric epithelial cells. Challenge of immunized mice induced significantly greater gastritis than that of infected mice, preceding significantly lower bacterial loads by day 7. In immune mice, T-cell recruitment to the gastric mucosa correlated with a continuous rise in IL-17 and interferon gamma levels, followed by KC, MIP-2, and LIX production and the recruitment of significant numbers of neutrophils by day 5. Antibody-mediated depletion of neutrophils abrogated vaccine efficacy. CONCLUSIONS Vaccination of mice against H pylori results in a significant Th-17 cell recall response associated with increases in chemokines that attract neutrophils to the stomach, which are important for eradication of H pylori.

Isolation of Epiblast Stem Cells from Preimplantation Mouse Embryos

Pluripotent stem cells provide a platform to interrogate control elements that function to generate all cell types of the body. Despite their utility for modeling development and disease, the relationship of mouse and human pluripotent stem cell states to one another remains largely undefined. We have shown that mouse embryonic stem (ES) cells and epiblast stem cells (EpiSCs) are distinct, pluripotent states isolated from pre- and post-implantation embryos respectively. Human ES cells are different than mouse ES cells and share defining features with EpiSCs, yet are derived from pre-implantation human embryos. Here we show that EpiSCs can be routinely derived from pre-implantation mouse embryos. The preimplantation-derived EpiSCs exhibit molecular features and functional properties consistent with bona fide EpiSCs. These results provide a simple method for isolating EpiSCs and offer direct insight into the intrinsic and extrinsic mechanisms that regulate the acquisition of distinct pluripotent states.