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The importance of poly(A)-binding protein 4 (PABP4) in healthy pregnancyHrabálková, Lenka January 2016 (has links)
Healthy pregnancy requires a tightly regulated materno-fetal dialogue for processes such as embryo implantation, endometrial decidualisation (in the mouse), placentation and maternal adaptation to occur. Disruption of placental development as well as maternal adaptation can lead to fetal intrauterine growth restriction (IUGR) which increases the risk of late miscarriage/stillbirth (e.g. 53% of preterm stillbirth and 26% of term stillbirth are found to be IUGR). Furthermore, IUGR is a risk factor for neurodevelopmental conditions in childhood and for a spectrum of related adult health disorders such as cardiovascular disease and type II diabetes, often termed metabolic syndrome. Despite these pregnancy disorders being common (e.g. 1 in 200 pregnancies results in stillbirth in the UK) the molecular lesion(s) underlying their pathophysiology are poorly understood and in particular those with placental and/or maternal aetiologies most frequently remain unexplained. Here we investigate the hypothesis that poly(A)-binding protein 4 (PABP4) is required for healthy pregnancy in mice. PABP4 is an RNA-binding protein and a member of the PABP family which are central regulators of mRNA translation and stability. Using all four permutations of wild-type and knock-out crosses, we find that maternal PABP4-deficiency results in a reduced litter size and IUGR. The number of implantations at e8.5 were not reduced in Pabp4-/- females, implying that the reduced litter size was not a consequence of decreased ovulation, fertilisation or implantation frequency. Further longitudinal analysis (at e13.5, e15.5 and e18.5) reveals that fetal death primarily occurred between e18.5 and birth, suggesting these mice may provide a unique opportunity to inform on the maternal causes of stillbirth. The onset of IUGR, which was found to be symmetrical in nature, was established by e15.5 preceding the majority of fetal death. During pregnancy, a materno-fetal dialogue directs and responds to changes in gene expression to give rise to the placenta and adapt the maternal physiology. Defects in these processes may result in reduced growth and/or fetal death and were examined in Pabp4-/- mice to shed light on the mechanistic basis of these related phenotypes. Fetal to placental (F:P) weight ratio, whose changes can be indicative of placental insufficiency or placental adaptation in an attempt to aid fetal growth, was found to be increased in Pabp4-/- dams at e15.5 and e18.5 due to the presence of IUGR fetuses with placentas of normal weight. Consistent with this observation, placental volume was unchanged at e18.5. Total placental weight and volume alone fails to discriminate potential differences in the individual placental zones which include the labyrinth zone, where materno-fetal gas and nutrient exchange occur; the junctional zone, which has endocrine functions including those that promote maternal adaptation; and the decidua basalis, derived from the maternal endometrium and is the site of trophoblast invasion and maternal vascular remodelling in early pregnancy. Therefore, volumetric analysis of these zones and the maternal blood spaces, which transcend the decidua basalis and junctional zone, was undertaken. This showed no change in the maternal blood spaces or the labyrinth, the latter being the zone whose size is most frequently altered in IUGR. Critically however, the size of the maternally-derived decidua basalis was increased with a concurrent decrease in the size of the junctional zone. These morphological changes may play a causative role either through directly affecting placental function and/or by the reduced junctional zone failing to promote appropriate maternal adaptation. Alternatively, they may reflect compensatory adaptations to a primary defect elsewhere in the mother. Complementing these morphological studies, functional studies were undertaken: remodelling of maternal vasculature and the resistance index of vessels delivering blood to the fetus were assessed; as was delivery of nutrients to the fetus (measured by fetal glucose); and systemic maternal adaptations (maternal hormonal profile, circulating glucose levels and organ weights). Uterine, umbilical and decidual spiral arteries were examined, but displayed no apparent differences suggestive of normal blood supply to the fetus. However fetal blood glucose was reduced suggesting a reduced delivery of nutrients important for fetal growth. This was not due to lower circulating maternal blood glucose levels, and mRNA levels of the placental glucose transporters Glut-1 and Glut-3 were not reduced but upregulated, suggestive of an attempt to compensate for reduced fetal glucose. Furthermore, upregulation of at least one system A amino acid transporter mRNA, Snat-2, was observed. The maternal physiological state of PABP4-deficient dams showed deviations in some organ weights (e.g. spleen weight is reduced at e13.5 and e15.5) and the levels of some circulating hormones (e.g. estradiol is deceased whereas progesterone is increased at e18.5). However, future work will be required to determine which, if any, of these changes are primary defects rather than downstream consequences and to identify which mis-regulated mRNAs/pathways within in the materno-fetal dialogue underlie the phenotype. Taken together, my results suggest that the regulation of mRNA translation/stability by PABP4 is critical to achieving the correct pattern of gene expression within the materno-fetal dialogue to enable appropriate placentation and maternal adaptation. Furthermore, my results suggest that Pabp4-/- mice provide a unique opportunity to further understand the maternal causes of a spectrum of related pregnancy complications including IUGR, late miscarriage and stillbirth.
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Effects of glucocorticoids on placental development and function : implications for fetal growth restrictionNugent, Justine Lucy January 2012 (has links)
Fetal growth restriction (FGR) signifies that the fetus has not achieved its growth potential and is associated with increased perinatal mortality and morbidity. The exact aetiology of FGR, in the absence of any identifiable fetal and maternal factors, remains unclear and is attributed to placental insufficiency. The FGR placenta has a characteristic phenotype including: increased resistance in the fetoplacental circulation, an alteration in trophoblast cell turnover and reduced activity of placental nutrient transport systems, the best characterised being the amino acid transporter, system A. The placenta strongly expresses the cortisol inactivating enzyme, 11β-hydroxysteroid dehydrogenase type 2 (11β-HSD2). 11β-HSD2 activity was reduced in placentas from pregnancies complicated by FGR, suggesting increased exposure of the fetoplacental unit to maternal cortisol. In animal models, excessive exposure to glucocorticoids (GCs) is associated with a reduction in both fetal and placental weight. This reduction in placental weight was associated with abnormalities in placental function, consistent with those observed in the FGR placenta. This PhD investigated whether excess GC exposure during pregnancy is responsible placental insufficiency in human pregnancies and tested the hypotheses that excess GC exposure adversely affects placental vascular tone, trophoblast cell turnover and activity of the amino acid transporter, system A. Term placentas were collected from uncomplicated pregnancies and first trimester placental samples were obtained following elective surgical termination of pregnancy. Wire myography was used to explore the acute and chronic effects of GCs on term chorionic plate artery (CPA) function. The impact of GC treatment on trophoblast cell turnover in both first trimester and term placenta was investigated using the placental explant system. The effect of GCs on the activity of the system A transporter was also investigated in term explants and in isolated cytotrophoblasts where the expression of 11β-HSD2 was reduced using siRNA. Gene microarray studies on first trimester placental explants treated with GCs were utilised to identify genes regulated by GCs. Blunted constriction to thromboxane A2 was observed following acute GC treatment, whilst chronic exposure resulted in enhanced vasoconstriction, mimicking the altered reactivity of CPAs from pregnancies complicated by FGR. GC excess in first trimester placental explants increased apoptosis and decreased proliferation, thereby replicating the disordered turnover of the trophoblast observed in FGR placentas. No demonstrable effect was observed in cell turnover or system A activity in term placental explants treated with GCs, however, these experiments were hindered by the in-vitro regeneration of the syncytiotrophoblast in the model employed. The attenuation of 11β-HSD2 activity observed in FGR placentas was replicated in term primary cytotrophoblasts utilising siRNA to knock-down expression of 11β-HSD2. Preliminary results suggested an increase in system A activity in response to cortisol. Gene microarray studies identified a significant number of genes (~500) that were regulated by dexamethasone, confirming that GCs have an impact on many aspects of placental function. Potential mediators for the characteristic features of the FGR placenta replicated here in response to GC treatment were identified and validated at the mRNA level. The studies described in this thesis support the hypotheses that GC excess within the placenta contributes to the development of raised vascular resistance in the fetoplacental circulation and the disordered trophoblast turnover in placentas from pregnancies complicated by FGR. However, with the preliminary studies performed, the hypothesis that elevated levels of GCs contribute to the reduced placental amino acid transfer by the system A transporter in the FGR placenta can not be confidently disproven.
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Antenatal sildenafil citrate treatment in a mouse model of fetal growth restriction : effects on fetus and offspringRenshall, Lewis January 2015 (has links)
Fetal growth restriction (FGR), when a fetus fails to reach its genetic growth potential, affects up to 10 % of pregnancies and is a major risk factor for both neonatal and adulthood morbidity and mortality. There are currently no treatments for FGR except for delivery of the fetus; resulting in premature delivery which, in itself, is linked to poor outcome. Therefore, the focus of current research is to examine whether therapies successfully used to treat diseases with similar aetiologies to FGR can also be used to treat FGR. Sildenafil citrate (SC), a selective phosphodiesterase-5 inhibitor, is one such candidate. With the recent announcement of the STRIDER international clinical trial for the treatment of severe FGR with SC, it is imperative to determine the efficacy and safety of SC treatment on both fetus in utero and long-term adult health. Mouse models that mimic characteristics of human FGR represent an attractive model to perform pre-clinical studies. Recent studies in mice have demonstrated that SC increased fetal and placental weight and normalised umbilical artery blood flow velocity in FGR but no studies have assessed effects of antenatal SC on offspring health. The aims of this study were to assess the effect of antenatal SC treatment on a) fetal weight b) fetal vascular reactivity b) pup viability and d) long-term effects on postnatal development/physiology in a mouse model of FGR.All experiments were performed in the placental-specific insulin-like growth factor 2 knockout mouse (Igf2 P0+/- mice) which have mixed litters of wild-type (WT) and growth restricted (P0) mice. It has been reported that SC administered in the drinking water was able to increase P0 fetal weight and thus this mouse model was chosen to assess the effects of SC on the fetus and offspring. SC was administered to pregnant dams in two regimens; orally (120 – 160 mg.kg-1) and subcutaneously (10 mg.kg-1) between E12.5 and E18.5. WT and P0 fetal abdominal aortas were isolated at E18.5 and ex vivo vascular function was assessed using wire myography. Fetal abdominal aortas demonstrated reliable and reproducible vasocontraction and vasorelaxation; there were some sex- and genotype-specific differences. SC demonstrated dose-dependent effects on fetal aortic function. Offspring from dams treated with a subcutaneous injection of SC or saline were assessed for postnatal growth (week 5 – week 12), systolic blood pressure (week 8 and week 13), glucose tolerance (week 12) and mesenteric / aortic vascular function (week 14 – week 16). These experiments demonstrated that;• A supratherapeutic concentration of antenatal SC (120 – 160 mg.kg-1) did not increase fetal weight but significantly blunted relaxation responses of fetal abdominal aortas at E18.5. • A subcutaneous injection of antenatal SC (10 mg.kg-1) did not increase fetal weight or alter fetal abdominal aortic function in mice but led to increased systolic blood pressure in both WT and P0 offspring. Additionally, glucose sensitivity was significantly reduced in female offspring from SC treated dams. In conclusion, the studies outlined in this thesis have demonstrated that antenatal SC treatment can cause alterations in fetal blood vessel function and also lead to changes in metabolic and cardiovascular function in mouse offspring. Using ex vivo wire myography, mouse fetal abdominal aortas were able to be assessed at E18.5. This methodological advance will be beneficial as it can be applied to assessing putative treatments in mice that show characteristics of human FGR. In addition, this technique will allow for investigation of the underlying mechanisms of in utero programming of adulthood cardiovascular diseases such as hypertension. Future work must focus on the mechanisms leading to increased systolic blood pressure in offspring from SC treated dams and whether such effects are noted in other animal models of FGR using a variety of SC dosing regimens. These studies will provide information with which to increase efficacy, and ensure the safety, of SC treatment in pregnancy complications.
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Arginine and fetal growth in ovine models of intrauterine growth restrictionLassala, Arantzatzu Leticia 15 May 2009 (has links)
This research was conducted to test the hypothesis that parenteralarginine supplementation is effective in enhancing birth weights of intrauterinegrowth restricted (IUGR) fetuses. Underfed and prolific ewes were used asexperimental models. The first study characterized the pharmacokinetics ofarginine and citrulline and assessed the potential of citrulline to serve as aprecursor for enhancing arginine availability in fetal and maternal plasma. Sixlate pregnant ewes and their fetuses were instrumented to access arterial andvenous circulations. Intravenous boluses of 155 mol of L-arginine-HCl or Lcitrullineper kg body weight were administered to each ewe. Administration ofcitrulline was more effective than arginine in achieving a sustained increase inconcentrations of arginine in maternal and fetal blood. Accordingly, theclearance rate of citrulline was lower and its biological half-life in maternal bloodgreater, when compared with arginine. The second experiment determined ifadministration of arginine to underfed ewes is effective in ameliorating orpreventing IUGR. Ewes were fed either 100% or 50% of the National ResearchCouncil recommended nutrient requirements for pregnant sheep. Between Day60 of pregnancy and parturition control-fed ewes received saline solution and underfed ewes received either saline solution or L-arginine-HCl solution (155mol of arginine/kg body weight) intravenously three times daily (n=5 / treatmentgroup). Birth weights of lambs were lower in saline-infused underfed ewes.There was no difference in birth weights of lambs from control-fed and argininetreatedunderfed ewes. The third experiment determined whether administrationof arginine could improve survival rates of lambs and enhance fetal growth inewes carrying multiple fetuses. Between Days 100 and 121 of pregnancy, ewesreceived an intravenous infusion of either saline solution (n= 14) or L-arginine-HCl solution (345 mol of arginine/kg body weight, n=20) three times daily.Parenteral administration of arginine increased the percentage of lambs bornalive and enhanced the birth weights of quadruplets. Collectively, these resultsindicate that 1) parenteral administration of arginine improves pregnancyoutcomes in underfed and prolific ewes; and 2) the use of arginine or citrullinemay have important implications for the design of an effective treatment forpreventing or ameliorating IUGR in mammals.
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Arginine and fetal growth in ovine models of intrauterine growth restrictionLassala, Arantzatzu Leticia 15 May 2009 (has links)
This research was conducted to test the hypothesis that parenteralarginine supplementation is effective in enhancing birth weights of intrauterinegrowth restricted (IUGR) fetuses. Underfed and prolific ewes were used asexperimental models. The first study characterized the pharmacokinetics ofarginine and citrulline and assessed the potential of citrulline to serve as aprecursor for enhancing arginine availability in fetal and maternal plasma. Sixlate pregnant ewes and their fetuses were instrumented to access arterial andvenous circulations. Intravenous boluses of 155 mol of L-arginine-HCl or Lcitrullineper kg body weight were administered to each ewe. Administration ofcitrulline was more effective than arginine in achieving a sustained increase inconcentrations of arginine in maternal and fetal blood. Accordingly, theclearance rate of citrulline was lower and its biological half-life in maternal bloodgreater, when compared with arginine. The second experiment determined ifadministration of arginine to underfed ewes is effective in ameliorating orpreventing IUGR. Ewes were fed either 100% or 50% of the National ResearchCouncil recommended nutrient requirements for pregnant sheep. Between Day60 of pregnancy and parturition control-fed ewes received saline solution and underfed ewes received either saline solution or L-arginine-HCl solution (155mol of arginine/kg body weight) intravenously three times daily (n=5 / treatmentgroup). Birth weights of lambs were lower in saline-infused underfed ewes.There was no difference in birth weights of lambs from control-fed and argininetreatedunderfed ewes. The third experiment determined whether administrationof arginine could improve survival rates of lambs and enhance fetal growth inewes carrying multiple fetuses. Between Days 100 and 121 of pregnancy, ewesreceived an intravenous infusion of either saline solution (n= 14) or L-arginine-HCl solution (345 mol of arginine/kg body weight, n=20) three times daily.Parenteral administration of arginine increased the percentage of lambs bornalive and enhanced the birth weights of quadruplets. Collectively, these resultsindicate that 1) parenteral administration of arginine improves pregnancyoutcomes in underfed and prolific ewes; and 2) the use of arginine or citrullinemay have important implications for the design of an effective treatment forpreventing or ameliorating IUGR in mammals.
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The role of endothelial progenitor cells in the utero-placental vasculatureSipos, Peter January 2013 (has links)
Fetal growth in utero depends on nutrient and oxygen reaching the fetus through the uterine and placental microcirculations, both undergoing massive expansion during pregnancy. Aberrations of the placental vasculature are associated with Intrauterine Growth Restriction (IUGR), a common pathological outcome of pregnancy; however, the cellular components responsible for vessel formation in the placenta and the uterus remain unknown. Endothelial Progenitor Cells (EPC) are a group of morphologically and functionally varied bone marrow derived vasculogenic cell types, divided into two major subsets: (i) Circulating Angiogenic Cells (CACs), which promote vessel formation by interfering with the extracellular matrix and (ii) Endothelial Colony Forming Cells (ECFCs), which provide the source for new endothelium. This role has been demonstrated in pathophysiological studies, but not in normal physiological events in vivo. Fetal ECFCs are more proficient than their adult counterparts, but it is unclear in what specific fetal or maternal physiological situations fetal ECFCs are involved. Based upon these considerations, it was hypothesised that: (i) fetal-derived ECFCs play a role in placental vasculogenesis, (ii) these cells transmigrate the placenta and home to loci of vessel formation in the pregnant uterus, and that (iii) intrinsic alterations in their capabilities are associated with fetal growth restriction during intrauterine life. To support these hypotheses the following experiments were performed;(i) EPCs in blood from pairs of human umbilical arteries and veins were counted by flow cytometry. Numbers of EPCs in these samples showed an arterio-venous gradient suggesting their placental sequestration. Furthermore, ECFCs were isolated from human umbilical blood using established culture techniques. Labelled human fetal ECFCs were transplanted into the circulation of murine fetuses using an ultrasound-guided intra-cardiac injection. Using a fluorescent imager and microscopy these cells were shown to home to the murine placenta and participate in vasculogenesis.(ii) Male mice ubiquitously expressing eGFP were crossbred with native females, and fetal (eGFP-positive) endothelial-like cells integrated into the uterine microvasculature. Human fetal ECFCs injected into murine fetuses were shown to migrate to the maternal uterus and became functionally involved with the microvasculature. In humans, microvessels were isolated from uterine biopsies of mothers with male offspring. Copies of the male specific SRY gene (quantified by RT-QPCR) indicated that cells of fetal origin constituted 12% of the endothelium in these vessels. In cross-sections, hybridisation of the Y-chromosome demonstrated the presence of fetal cells in the maternal endothelium of the human uterus. (iii) Using flow cytometry, fewer EPCs were defined within the peripheral circulation of growth-restricted babies. Functional assays showed that ECFCs derived from these growth-restricted cases had intrinsically impaired proliferation, migration, matrix-metalloproteinase (MMP-2) production, and generated fewer blood vessels in a murine vasculogenic bioassay. These results demonstrated the vasculogenic capacity of human fetal ECFCs in vivo and established them as key players in human placental vasculogenesis and uterine vessel expansion. Notably, these results also showed a link between impaired function of fetal ECFCs and IUGR, which is associated with increased cardiovascular risk of both the fetus as an adult, and mother in later life. From these findings it could be speculated, that intrinsic changes in ECFC-biology may be the causative link between IUGR and fetal and maternal cardiovascular susceptibility. Insight into these processes may contribute to early diagnosis, prevention and treatment of IUGR and associated conditions.
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Development of nanocarriers for targeted drug delivery to the placentaCureton, Natalie January 2017 (has links)
Pregnancy complications such as fetal growth restriction (FGR) are often attributed to poor uteroplacental blood flow, but the risk of systemic side-effects hinders therapeutic intervention. We have utilised novel placental-specific homing peptides to overcome this and have conjugated these to biocompatible liposomes. Peptide-conjugated liposomes were found to selectively bind to the outer syncytiotrophoblast layer of the human placenta and to the uteroplacental vasculature and labyrinth region of the mouse placenta. The novel vasodilator SE175 was selected as a nitric oxide donor with a favourable stability and release profile, to encapsulate in peptide-conjugated liposomes in an attempt to restore impaired uteroplacental blood flow in a mouse model of FGR, the endothelial nitric oxide synthase knockout mouse. Liposomes containing SE175 or PBS were prepared by lipid film hydration and targeting peptides coupled to the liposomal surface. Vehicle control, free SE175, PBS- or SE175-containing liposomes were intravenously injected on embryonic (E) days 11.5, 13.5, 15.5 and 17.5. Animals were sacrificed at E18.5 and fetal and placental weights recorded. Targeted delivery of SE175 significantly increased fetal weight compared to vehicle control but no other treatment groups, whilst significantly decreasing placental weight, indicating improved placental efficiency. Treatment was well tolerated, having no impact on litter size or resorptions. Targeted delivery of SE175, but no other treatment group, reduced a marker of lipid peroxidation in the placenta, indicating a reduction in oxidative stress. These data suggest that selective delivery of SE175 to the uteroplacental vasculature in peptide decorated liposomes may represent a novel treatment for FGR.
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The use of MRI techniques in the identification of placental dysfunctionIngram, Emma January 2017 (has links)
Adequate placental function is essential for the growth and development of a healthy fetus. A major cause of abnormal placental function is thought to occur from inadequate maternal spiral artery remodelling, leading to maternal vascular malperfusion (MVM) of the placenta and ultimately fetal growth restriction (FGR) and stillbirth due to uteroplacental hypoxia. Current methods of investigating a pregnancy at risk of FGR rely on ultrasound estimations of fetal size and Doppler studies. A more informative measure may be to quantify placental function in-vivo. Magnetic resonance imaging (MRI) has the ability to assess placental oxygen saturation (sO2), using Blood Oxygen-Level Dependent (BOLD), and the partial pressure of oxygen (pO2) using Oxygen-Enhanced MRI (OE MRI). These MRI techniques have been shown to correlate with gestation and poor pregnancy outcomes in cross sectional studies. MRI measures of placental oxygenation are hypothesised to be a potential antenatal tool for the identification and stratification of high risk pregnancies at risk of FGR related to uteroplacental hypoxia. To address this hypothesis changes in placental oxygenation, following maternal hyperoxia, were calculated in normal and FGR pregnancies in a cross sectional study. The change in placental oxygenation was reproduced longitudinally to determine if the rate of change differed between normal and FGR pregnancies. Baseline placental MRI parameters (R1 and R2*) and measures of the change in oxygenation were incorporated into a diagnostic model to identify FGR related to uteroplacental hypoxia, which was provisionally tested in a group of high risk pregnancies to demonstrate its potential clinical utility. Placental measures of baseline R1 and R2* were significantly increased in FGR pregnancies. The change in placental pO2 following hyperoxia was found to be significantly lower in FGR pregnancies. The change in pO2 declined similarly with gestation in both cross sectional and longitudinal studies, in normal and FGR pregnancies. There were no significant correlations in the change in placental sO2 with gestation or pregnancy outcome. The use of a diagnostic model combining baseline R1 and R2* and pO2 measures identified FGR with a high specificity, and provided additional information to aid in disease stratification and decision making in a significant proportion of the high risk pregnancies tested. In conclusion, MRI parameters of placental pO2 following hyperoxia are significantly lower in FGR pregnancies, in keeping with the concept of uteroplacental hypoxia. MRI techniques show promise in the identification of FGR pregnancies related to MVM through measures of placental function, irrespective of fetal size, and may aid in the disease stratification of high risk pregnancies.
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Fatores PrognÃsticos para o Ãbito Neonatal em GestaÃÃes com Diastole Zero ou Reserva na Dopplervelocimetria das ArtÃrias Umbilicais / Prognostic Factors for Neonatal Death in Diastole Pregnancies with Zero Reserve or in the umbilical arteriesManoel Martins Neto 28 July 2009 (has links)
Objetivos. Avaliar os fatores prognÃsticos para o Ãbito neonatal em gestaÃÃes com diÃstole zero ou reversa na dopplervelocimetria da artÃria umbilical MÃtodos. Estudo transversal a partir dos prontuÃrios das gestantes com diagnÃstico de diÃstole zero (DZ) ou reversa (DR) em artÃria umbilical acompanhadas no ServiÃo de Medicina Materno Fetal da Maternidade-Escola Assis Chateaubriand â Universidade Federal do CearÃ. Foram analisadas 48 pacientes com gestaÃÃo Ãnica, sem anomalias estruturais ou cromossÃmicas, apresentando idade gestacional superior a 22 semanas e menor do que 34 semanas. Para a avaliaÃÃo estatÃstica, foram empregados os testes: t Student, Exato de Fisher, Qui-quadrado de Pearson e RegressÃo LogÃstica e Multinomial. Todos foram considerados estatisticamente significantes quando p<0,05. Resultados. As sÃndromes hipertensivas foram observadas na maioria (78,3 %) das gestantes. A maioria (52,1%) das gestaÃÃes foi resolvida nas primeiras 24 horas apÃs o diagnÃstico dopplervelocimÃtrico. Em uma semana, 81,3% dos casos tinham terminado em parto, preferencialmente (85,4%) pela via abdominal. Os maiores percentuais da idade gestacional no momento do diagnÃstico dopplervelocimÃtrico concentraram-se na faixa de 25 e 27 semanas. Os pesos do RN variaram entre 550g e 2600g, com mÃdia de 1021,7g. Os recÃm-nascidos foram classificados como pequenos para idade gestacional em 79,1% dos casos. Ao primeiro minuto de vida, 24 (57,1%) RN apresentaram Ãndices de Apgar menores do que 7. Ocorreram 26 Ãbitos neonatais. Do estudo estatÃstico univariado dos fatores de risco antenatais, a idade gestacional no momento do diagnÃstico dopplervelocimÃtrico revelou-se variÃvel significativamente relacionada com o Ãbito neonatal (RR; 2,1, 95% CI 1.152 â 4.008, p = 0.011). Do estudo estatÃstico univariado dos fatores de risco pÃs-natais peso do RN (RR; 2,6, 95% CI 1.329 - 5.238, p = 0.001) e Apgar ao primeiro minuto (RR; 1,9, 95% CI 1.03 â 3.588,p = 0.027) revelaram-se variÃveis significativamente relacionadas com o Ãbito neonatal, com peso do RN apresentando sensibilidade de 76,9%, especificidade de 73,6%, valor preditivo positivo de 80,0% e valor preditivo negativo de 30%, e Apgar ao primeiro minuto apresentando sensibilidade de 61,5%, especificidade de 61,1%, valor preditivo positivo de 69,5% e valor preditivo negativo de 47,6%. ConclusÃes. DiÃstole zero ou reversa estÃo relacionadas com resultados perinatais adversos, cujo risco para Ãbito neonatal està relacionado com a idade gestacional no momento do diagnÃstico dopplervelocimÃtrico e com o peso do RN e com Apgar ao primeiro minuto. / Objectives: evaluate the perinatal results in pregnancies with fetal brain sparing on the Doppler velocimetric study and identify the main prognostic factors associated with neonatal death. Methods: it is a transverse study from the charts of pregnant wowen with diagnosis of brain sparing, absent or reversed end-diastolic flow in the umbilical artery, followed at the Service of Maternal-Fetal Medicine of Maternidade-Escola Assis Chateaubrind â Universidade Federal do CearÃ. There were analyzed 143 patients with single pregnancies, without structural or chromosomal anomalies, presenting gestacional age above 22 weeks and fetal weight equal or above 500 grams. ROC curve was constructed for gestacional age and weight at birth (independent variables) and neonatal death (dependent variable). The perinatal results were evaluated on the general population and on each group (brain sparing, absent and reversed end-diastolic flow), later compared with each other. For the statistical analisys it was utilized the tests: Shapiro-Wilk, Levene, t Studente, Mann-Whitney, ANOVA, Kruskal Wallis, Fisher. Chi-square, Logistical and Multinomial Regression. All were considered statistically significant when p < 0.05. Results: the majority of pregnante wowen (78.3%) presented some hypertensive disturb associated to the pregnancy. The pregnancy was resolved in the first 24 hours after Doppler velocimetric diagnosis on most cases (74.8%), being the abdominal acess utilized in 96.5% of the times. At the moment of delivers, the average gestational age was 33.6 weeks and the weight was 1684g. The newborns were classified as small for gestational age in 69.6% and needed ICU admission in 63% of the cases. The indexes of perinatal mortality for brain sparing, absent and reversed end-diastolic flow were respectively 11.1, 31.1 and 70.6%. The weight of the newborn (area bellow the ROC curve 0.934, p=0.000 and gestational age at birth (area 0.909, p=0.000) have shown to be good predictors of neonatal death. The cutoff point calculated for the weight was 1010g and for the gestational age as 32.5 weeks. The incidence of diminished amniotic fluid indez (AFI) in the pregnancies with lethal perinatal outcome was 41.2% and in those without lethality was 41.3%. Conclusions: fetuses with diagnosis of brain sparing, absent and reversed end-diastolic flow presented progressively worse and statistically different with each other prognosis. The gestational age and weight at birth showed excellent correlation with neonatal mortality. The AFI did not demonstrate association with lethality rate.
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Examining the possibility of an endothelial-mesenchymal transition in placentaSwietlik, Stefanie January 2016 (has links)
During normal placental development, a primitive vascular network develops through vasculogenesis and angiogenesis, and is then remodelled through maturation and regression. The mechanism behind this regression is unknown, but data from other systems suggests that it could be due to an endothelial-mesenchymal transition (EndMT). If this is the case, then dysregulated EndMT could lead to increased vascular regression, which could result in placental hypovascularisation. As the placental vasculature is the area of exchange between maternal and fetal circulations, a reduction in its surface area could result in fetal growth restriction (FGR). The hypothesis of this thesis is that EndMT occurs during normal placental development, but is increased during FGR and contributes to placental hypovascularisation. A primary cell model consisting of endothelial and mesenchymal cells was isolated from human first trimester placental villous stroma. These cells were shown to lose CD31 mRNA (n = 1-3) and protein (n = 15) over 4 passages, with no loss of cell viability (n = 8). EndMT-associated transcription factors were also present in these cells at all 4 passages (n = 2-4). When cells were isolated from this mixed cell model based on their CD31-positivity and examined immediately after isolation, a small proportion also expressed αSMA (n = 5). Co-expression of endothelial and mesenchymal markers suggests that an EndMT was occurring. After 24 hours in culture, the proportion of these cells expressing αSMA increased (n = 5), and some cells co-expressed vWF and αSMA, while others lost their CD31-positivity, indicating that these cells had undergone EndMT. Cells isolated based on their CD31-positivity were treated with factors shown to inhibit EndMT in other systems. However, culture with 10µM SB431542 (TGFβ receptor inhibitor; n = 6), 10µM Dorsomorphin (BMP receptor inhibitor; n = 3), or 0.1µM PDGFR-β Tyrosine Kinase Inhibitor IV (n = 3) did not inhibit gain of αSMA by these cells. Culture on Matrigel in endothelial growth medium containing VEGF and FGF also failed to stabilise the endothelial phenotype (n = 3). The possibility that EndMT occurs in placenta in vivo was examined; genes associated with EndMT were shown to be present in placenta (n = 5), and there was limited evidence of CD31 or vWF co-expression with αSMA in tissue. Preliminary evidence was obtained to suggest that expression of EndMT-associated genes was altered in FGR placentas compared to normal. In summary, the data presented in this thesis demonstrate that an EndMT occurs in primary placental microvascular endothelial cells in vitro. Furthermore, these studies provide evidence to suggest that this transition also occurs in vivo and could be altered in placentas from pregnancies complicated by FGR.
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