Minimally Invasive Precise Application of Bioadhesives to Prevent IPPROM on a Pregnant Sheep Model

<b><i>Introduction:</i></b> Iatrogenic preterm premature rupture of the membrane remains the Achille’s heel of fetoscopy. The aim of this study was to show in vivo feasibility of fetal membrane (FM) defect sealing by the application of tissue glues with umbrella-shaped receptors. <b><i>Methods:</i></b> First, we adapted our previously described ex vivo strategy and evaluated the adhesion strength of different tissue glues, Histoacryl® and Glubran2®, by bonding polytetrafluoroethylene or silicone encapsulated nitinol glue receptor to human FM. Then, we exposed pregnant sheep uterus through a laparotomy and placed a 10-French trocar into the amniotic cavity through which the umbrella-shaped glue receptor (<i>n</i> = 9) was inserted and fixated onto the FM with the tissue glues (<i>n</i> = 8). The tightness of the sealed defects was assessed 4 h post-surgery. <b><i>Results:</i></b> Both tissue glues tested resulted in adhesion of the glue receptors to the FM ex vivo. In vivo, all glue receptors opened in the amniotic cavity (<i>n</i> = 9) and all successfully placed glue receptors sealed the FM defect (<i>n</i> = 8). Four hours post-surgery, 2 treatment sites showed minimal leakage whereas the negative control without glue (<i>n</i> = 1) showed substantial leakage. <b><i>Discussion:</i></b> This in vivo study confirms that fetoscopically induced FM defects can be sealed by the application of tissue adhesives.

Galectin-1 Confers Endometrial Gene Expression and Protein Related to Maternal-Conceptus Immune Tolerance in Cattle

Conceptus secretory factors include galectins, a family of carbohydrate binding proteins that elicit cell adhesion and immune suppression by interacting with intracellular and extracellular glycans. In rodents, galectin-1 (LGALS1) promotes maternal-fetal immune tolerance in the decidua through expansion of tolerogenic CD11c+ dendritic cells, increased anti-inflammatory IL-10, and activation of FOXP3+ regulatory T cells (Treg). This study characterized galectin expression in early ruminant conceptuses and endometrium. We also tested the effect of recombinant bovine LGALS1 (rbLGALS1) and progesterone (P4) on endometrial expression of genes and protein related to maternal-fetal immune tolerance in cattle. Elongating bovine and ovine conceptuses expressed several galectins, particularly, LGALS1, LGALS3 and LGALS8. Within bovine endometrium, expression of LGALS3, LGALS7 and LGALS9 was greater on Day 16 of pregnancy compared to the estrous cycle. Within ovine endometrium, LGALS7 was greater during pregnancy compared to the estrous cycle and endometrium of pregnant sheep tended to have greater LGALS9 and LGALS15. Expression of endometrial LGALS4 was less during pregnancy in sheep. Treating bovine endometrium with rbLGALS1 increased endometrial expression of CD11c, IL-10 and FOXP3, within 24 h. Specifically, within caruncular endometrium, both rbLGALS1 and P4 increased FOXP3, suggesting that both ligands may promote Treg expansion. Using IHC, FOXP3+ cells with a leukocyte phenotype were localized to the bovine uterine stratum compactum near the uterine surface and increased in response to rbLGALS1. We hypothesize that galectins have important functions during establishment of pregnancy in ruminants and bovine conceptus LGALS1 and luteal P4 confer mechanisms of maternal-conceptus immune tolerance in cattle.

264 Using in vivo RNA Interference to Investigate Ruminant Placental Function

Pregnant sheep have been used extensively for investigating pregnancy physiology, providing valuable information about the progression of ruminant pregnancy. The ability to place indwelling catheters, within both maternal and fetal vessels, allows for steady-state investigation of blood flow, nutrient uptakes and utilization, and hormone secretion, under non-stressed and non-anesthetized conditions. As such, our understanding of the in vivo physiology of pregnancy in sheep is unrivalled by any other species. However, until recently, a significant deficit existed in determining the specific function or significance of individual genes expressed by the placenta in livestock. To that end, we developed and have been using in vivo RNA interference (RNAi) within the sheep placenta to examine the function and relative importance of genes involved in conceptus development (PRR15 and LIN28), placental nutrient transport (SLC2A1 and SLC2A3), and placenta derived hormones (CSH). The lentiviral vector LL3.7 is used to generate virus that is stably integrated into the infected cell’s genome, thereby expressing a short-hairpin RNA (shRNA), that when processed within the cell, combines with the RNA Induced Silencing Complex (RISC) resulting in specific mRNA degradation or translational blockage. To accomplish in vivo RNAi, day 9 hatched and fully expanded blastocysts are infected with the lentivirus for 4–5 hours, and then surgically transferred to synchronized recipient uteri. Only the trophectoderm cells are infected by the replication deficient virus, leaving the inner cell mass unaltered, and we typically obtain 70–80% pregnancy rates following transfer of a single blastocyst. Data will be presented from two projects. One is focused on generating a deficiency in placental glucose transporters at mid-gestation, and the other on the impact of CSH RNAi during late gestation, demonstrating the utility of this experimental approach for examining gene function within the placenta of livestock. Supported by NIH-NICHD grants HD093701 and HD094952.

Miniaturized Electrochemical Sensors to Monitor Fetal Hypoxia and Acidosis in a Pregnant Sheep Model

Perinatal asphyxia is a major cause of severe brain damage and death. For its prenatal identification, Doppler ultrasound has been used as a surrogate marker of fetal hypoxia. However, Doppler evaluation cannot be performed continuously. We have evaluated the performance of a miniaturized multiparametric sensor aiming to evaluate tissular oxygen and pH changes continuously in an umbilical cord occlusion (UCO) sheep model. The electrochemical sensors were inserted in fetal hindlimb skeletal muscle and electrochemical signals were recorded. Fetal hemodynamic changes and metabolic status were also monitored during the experiment. Additionally, histological assessment of the tissue surrounding the sensors was performed. Both electrochemical sensors detected the pO2 and pH changes induced by the UCO and these changes were correlated with hemodynamic parameters as well as with pH and oxygen content in the blood. Finally, histological assessment revealed no signs of alteration on the same day of insertion. This study provides the first evidence showing the application of miniaturized multiparametric electrochemical sensors detecting changes in oxygen and pH in skeletal muscular tissue in a fetal sheep model.

Human vaccine candidate (DDVax) development against Rift Valley Fever: dissemination safety studies in mosquitoes

Rift Valley fever virus (RVFV) is a mosquito-borne pathogen with significant human and veterinary health consequences that periodically emerges in epizootics. RVF causes fetal loss and death in ruminants and in humans can lead to liver and renal disease, delayed-onset encephalitis, retinitis, and in some cases severe hemorrhagic fever. A live attenuated vaccine candidate (DDVax), was developed by the deletion of the virulence factors NSs and NSm from a clinical isolate, ZH501, and has proven safe and immunogenic in rodents, pregnant sheep and non-human primates. Deletion of NSm also severely restricted mosquito midgut infection and inhibited vector-borne transmission. To demonstrate environmental safety, this study investigated the replication, dissemination and transmission efficiency of DDVax in mosquitoes following oral exposure compared to RVFV strains MP-12 and ZH501. Infection and dissemination profiles were also measured in mosquitoes 7 days after feeding on goats inoculated with DDvax or MP-12. Hypothesis: DDVax should infect mosquitoes at significantly lower rates than other RVF strains and, due to lack of NSm, be transmission incompetent. Exposure of Ae. aegypti and Cx. tarsalis to 6-8 log plaque forming units (PFU)/mL DDVax by artificial bloodmeal resulted in significantly reduced DDVax infection rates in mosquito bodies compared to controls. Plaque assays indicated negligible transmission of infectious DDVax in Cx. tarsalis saliva (1/140 sampled) and none in Ae aegypti saliva (0/120). Serum from goats inoculated with DDVax or MP-12 did not harbor detectable infectious virus by plaque assay at 1, 2, or 3 days-post-inoculation; infectious virus was, however, recovered from mosquito bodies that fed on goats vaccinated with MP-12 (13.8% and 4.6%, respectively), but strikingly, DDvax positive mosquito bodies were greatly reduced (4%, and 0%, respectively). Furthermore, DDVax did not disseminate to legs/wings in any of the goat-fed mosquitoes. Collectively, these results are consistent with a beneficial environmental safety profile .

EFFECT OF ANTIOXIDANT PREPARATIONS OF DIFFERENT MECHANISMS OF ACTION ON THE LEVEL OF LIPID PEROXIDATION PRODUCTS IN THE ORGANISM OF PREGNANT SHEEP

Antioxidant drugs "E-selenium" and Catosal help to reduce LPO processes in the body of pregnant ewes. Were formed 3 groups of animals - analogs, three heads each (control and two experimental). Ewes of experimental group 1 were injected intramuscularly with the preparation "E-selenium" in a dose of 1 ml per head once a month for 2 months, starting from the third month of pregnancy. The animals of the second experimental group in the same periods were injected with the drug "Catosal" intramuscularly at a dose of 4 ml per head once a month for 2 months. The feeding of animals of all groups was the same, balanced in nutrients and corresponded to the norms of the Russian Academy of Agricultural Sciences. The experiment lasted 155 days. There was an increase in the production of DC in the 3rd month of pregnancy in the control group of animals in comparison with the experimental ones, in its so-called "peak", it was significantly higher than in the 1st month, in experimental group 1 by 9.8 %, with experimental group 2 by 9.71%, in control by 18.75 %. During this crucial period, the laying of fruits occurs in the body of ewes, which is reflected in the level of its own antioxidant system. A similar increase can be traced in the case of MDA, which is a secondary oxidation product and is often formed from diene conjugates. The difference in the control group in comparison with the experimental group 1 was 7.48 % and the experimental group 2 13.84 %. Starting from the 4th and 5th months of pregnancy, as the intensity of LPO processes increased, the concentration of DC and MDA production decreased in the experimental groups and especially in the experimental group 2.