Interventional resealing of preterm premature rupture of the membranes: a systematic review and meta-analysis.

OBJECTIVE: To compare the effectiveness and outcomes of interventional resealing of membranes, "amniopatch" for spontaneous vs. iatrogenic preterm premature rupture of the membranes (sPPROM and iPPROM). METHODS: We performed a systematic review of literature involving an electronic search of the following databases: Ovid MEDLINE(R) and Epub Ahead of Print, In-Process and Other Non-Indexed Citations, Ovid MEDLINE(R) Daily, Ovid EMBASE, Ovid Cochrane Central Register of Controlled Trials, and Scopus. An indirect meta-analysis was then performed to compare the obstetric, maternal, fetal, and neonatal outcomes of amniopatch between the sPPROM and iPPROM groups. RESULTS: The mean gestational age (GA) at the time rupture was 17.8 ± 1.8 and 25.2 ± 3.8 weeks for iPPROM and sPPROM, respectively, p = .005. Mean GA at the time of amniopatch procedure was 19.2 ± 2.07 weeks for iPPROM and 23 ± 3.1 weeks of gestation for sPPROM, p = .023. The rates of fluid re-accumulation (sPPROM 26% and iPPROM 53%, p = .09) were comparable between the sPPROM and iPPROM groups. Neonatal outcomes except for the rate of IUFD were also comparable between the groups. The incidence of IUFD was significantly higher in the iPPROM group (ES: 24%; 95% CI: 8.00-44.0%; p < .001), compared to sPPROM (ES: 0%; 95% CI: 0.00-4.00%). Obstetric and maternal outcomes were comparable between the two groups. CONCLUSIONS: Amniopatch appears to be a feasible and safe procedure for PPROM treatment. Further research is warranted to investigate the effectiveness of this procedure and establish a standardized criterion for the appropriate selection of patients that could benefit from this intervention.

Sacral protuberance with cleft lip and palate: Prenatal presentation of 3MC syndrome.

3MC syndromes are rare heterogeneous autosomal recessive conditions previously designated as Mingarelli, Malpuech, Michels, and Carnevale syndromes, characterized by dysmorphic facial features, facial clefts, growth restriction, and intellectual disability. 3MC is secondary to mutations in the MASP1, MASP3, COLEC11, and COLEC10 genes. The number of patients with 3MC syndrome with known mutations in the COLEC11 or MASP1 is, to date, less than 50. At the time this case presented (2015), the only gene identified in Online Mendelian Inheritance in Man to be associated with 3MC syndrome was MASP1. We present, to the best of our knowledge, the first prenatal report of 3MC syndrome, secondary to a homozygous variant in MASP1. Fetal findings included bilateral cleft lip and palate, abnormality of the sacral spine, a right echogenic pelvic kidney, and brachycephaly. 3MC syndrome should be considered as part of the differential diagnosis when fetal ultrasound detects facial clefts and spinal defects, as the risk of recurrence is significant and a molecularly confirmed diagnosis allows for alternate reproductive options.

Increased placental T cell trafficking results in adverse neurobehavioral outcomes in offspring exposed to sub-chronic maternal inflammation.

Interleukin-1 beta (IL-1ß) is a cytokine mediator of perinatal brain injury. The effect of sub-chronic systemic IL-1ß exposure in perinatal and offspring outcomes is unclear. The aim of this study was to examine the effects of maternal IL-1ß exposure on pregnancy and offspring outcomes. At E15, CD1 dams were allocated to receive intraperitoneal injection of phosphate buffered saline or mouse recombinant IL-1ß (1 mcg) for four consecutive days. We analyzed pup survivaland neurobehavioral status. At E18, placental H&E staining and fetal brain Nissl staining was performed. Placental gene expression was analyzed by qPCR and T cell infiltration was analyzed by flow cytometry. Effects of inflammation on feto-placental blood flow were analyzed by Doppler ultrasonography. IL-1ß decreased pup survival (P < .0001) and adversely affected offspring performance on neurodevelopmental tests (P < .05). Placentas of exposed dams exhibited significant thinning of maternal and fetal sides, and fetal brain exhibited cortical thinning. Placental qPCR analysis revealed significant upregulation of NFκB2 (P = .0021) and CXCL11 (P = .0401). While maternal IL-1ß exposure did not affect feto-placental blood flow, placental flow cytometry showed an increase in placental infiltration of CD4+ T cells at 24 h post-injection (hpi, P < .0001) and CD8+ T cells at 72 hpi (P = .0217). Maternal sub-chronic, systemic inflammation with IL-1ß decreased pup survival and played a key role in perinatal brain injury. The mechanisms behind these outcomes may involve immune system activation and alterations in placental T cell trafficking.

P2X7 receptor blockade prevents preterm birth and perinatal brain injury in a mouse model of intrauterine inflammation.

The P2X7 is an adenosine triphosphate (ATP)-gated ion channel involved in several facets of immune activation and neuronal function through its importance in interleukin (IL)-1ß secretion. We hypothesized that blockade of P2X7 would prevent perinatal brain injury associated with exposure to intrauterine (IU) inflammation. Dams received 45 mg/kg of Brilliant Blue G (BBG), a specific P2X7 receptor (P2X7R) antagonist, on gestation day 17 (E17) prior to administration of lipopolysaccharide (LPS) or phosphate-buffered saline (PBS). Furthermore, we utilized embryo transfer experiments to delineate whether the P2X7 was the key mediator of IU inflammation-associated brain injury on maternal or fetal sides. In these experiments, P2X7-/- dams were embryo-transferred wild type embryos and wild type dams were embryo-transferred P2X7-/- embryos. In the mouse model of intrauterine inflammation, pharmacologic blockade of P2X7R reduced preterm birth rate, improved offspring performance on neuromotor tests as well as the dendritic arborization and density of cortical neurons. Embryo transfer experiments demonstrated the importance of maternal P2X7R in IU inflammation-mediated effects on offspring. Both genetic and pharmacologic blockade of IL-1ß signaling, by targeting maternal P2X7R, ameliorated perinatal brain injury following exposure to IU inflammation. Specific targeting of maternal P2X7R may provide a clinically useful tool to prevent both preterm birth and prematurity-associated perinatal brain injury, and further studies are urgently needed.

Update on syphilis and pregnancy.

While the origins of syphilis remain unknown, it has long been recognized as an infectious entity with complex pathophysiology. In this review, we highlighted the epidemiology and risk factors associated with syphilis. The incidence of syphilis in most populations showed a consistent upward trend until the 1940s with the introduction of penicillin as the preferred treatment. The emergence of congenital syphilis and vertical transmission has been a direct result of heterosexual syphilis transmission. We also explore the microbiology and pathogenesis of Treponema pallidum as it directly correlates with its route of transmission and infectivity. The clinical features are best categorized into stages (primary, secondary, early, and late latent and tertiary). The primary stage presents as a characteristic chancre and inguinal adenopathy, while the secondary "bacteremia" stage has a predilection to dermatologic manifestations and constitutional symptoms. The latent phase of syphilis witnesses a quiescent period with variable relapse of symptoms and finally, one-third of untreated patients undergo tertiary syphilis years after the initial infection characterized by severe neurologic or cardiovascular symptomatology. We will also review the data collected for congenital syphilis from the CDC as this can manifest with stillbirth, neonatal death, and nonimmune hydrops. The diagnosis of syphilis focuses on a combination of nontreponemal and treponemal antibody tests with the CDC recommending a traditional algorithm from screening to confirmation. However, other agencies have recently adopted the reverse testing algorithm which has outperformed the traditional algorithm in certain populations. We finally focus on syphilotherapy and monitoring response to treatment with a specific emphasis on pregnancy. Birth Defects Research 109:347-352, 2017. © 2017 Wiley Periodicals, Inc.

Risk factors for periventricular white matter injury in very low birthweight neonates.

BACKGROUND: The development of periventricular white matter injury (PWMI) in the preterm neonate is the most common insult portending neurologic impairment and is linked with the later development of cerebral palsy. The pathogenesis of PWMI targets premyelinating oligodendrocytes of the periventricular region secondary to free radicals, cytokine toxicity, and excitatory neurotransmitters. The primitive nature of the vasculature in the developing fetal cortex lends to its predilection to PWMI and cerebral ischemia with less arterial anastomoses at arterial border zones and failure to compensate for global hypotension, termed the "pressure-passive" circulation. OBJECTIVE: Our objective is to determine the relative risk (RR) of fetal metabolic acidosis and perinatal infection in the development of PWMI in very low birthweight (VLBW) (<1500 g) neonates. STUDY DESIGN: This is a cohort study of all VLBW neonates admitted to our neonatal intensive care unit from April 2009 through December 2014, comparing those who developed PWMI on neonatal head ultrasound at 6 weeks of life to those who did not. Neonates with chromosomal or major congenital abnormalities were excluded. Generalized linear modeling, adjusting for variables significantly different on bivariate analysis, was conducted. RESULTS: During this 5-year and 8-month period there were 374 VLBW neonates admitted; 35 (9.4%) had PWMI. VLBW neonates without PWMI were significantly more likely to have intrauterine growth restriction (2.9% PWMI, 21.5% no PWMI; P = .006), while those neonates with PWMI had a significantly lower gestational age (26.3 ± 2.2 vs 28.0 ± 2.5 weeks; P < .001) and birthweight (868 ± 237 vs 993 ± 276 g; P = .009). There was no significant difference in umbilical arterial pH (7.25 ± 0.15 vs 7.27 ± 0.09; P = .34), base deficit (4.6 ± 6.0 vs 3.4 ± 3.3 mmol/L; P = .11), or pH <7.0 or base deficit >12 mmol/L at birth (10.7% vs 3.2%; P = .09). On bivariate analysis neonates with PWMI had a significant increase in positive cerebrospinal fluid (CSF) cultures (22.9% vs 1.5%; P < .001). The initial lumbar puncture was performed at a similar day of life, and neonates with PWMI had significantly elevated CSF white blood cell counts (5%, 50%, and 95%; 16, 175, and 709/mm(3); 1, 3, and 27/mm(3); P = .008). Generalized linear modeling, adjusted for gestational age and the presence of intrauterine growth restriction, showed that fetal metabolic acidosis had RR 2.59 (95% confidence interval, 1.14-5.92; P = .02) and neonatal CSF infection had RR 4.94 (95% confidence interval, 2.4-10.3; P < .001) for association with PWMI. CONCLUSION: The RR of neonatal CSF infection being associated with PWMI was 2-fold greater than metabolic acidosis at the time of birth. Decreasing the incidence of CSF infections would have a greater impact on preventing PWMI, a precursor of cerebral palsy.

Infections and Brain Development.

Several different bodies of evidence support a link between infection and altered brain development. Maternal infections, such as influenza and human immunodeficiency virus, have been linked to the development of autism spectrum disorders, differences in cognitive test scores, and bipolar disorder; an association that has been shown in both epidemiologic and retrospective studies. Several viral, bacterial, and parasitic illnesses are associated with alterations in fetal brain structural anomalies including brain calcifications and hydrocephalus. The process of infection can activate inflammatory pathways causing the release of various proinflammatory biomarkers and histological changes consistent with an infectious intrauterine environment (chorioamnionitis) or umbilical cord (funisitis). Elevations in inflammatory cytokines are correlated with cerebral palsy, schizophrenias, and autism. Animal studies indicate that the balance of proinflammatory and anti-inflammatory cytokines is critical to the effect prenatal inflammation plays in neurodevelopment. Finally, chorioamnionitis is associated with cerebral palsy and other abnormal neurodevelopmental outcomes. In conclusion, a plethora of evidence supports, albeit with various degrees of certainty, the theory that maternal infection and inflammation that occur during critical periods of fetal development could theoretically alter brain structure and function in a time-sensitive manner.