Sodium Thiosulfate in the Pregnant Dahl Salt-Sensitive Rat, a Model of Preeclampsia

Aberrant production of hydrogen sulfide (H2S) has been linked to preeclampsia. We hypothesized that sodium thiosulfate (STS), a H2S donor, reduces hypertension and proteinuria, and diminishes fetal growth restriction in the Dahl salt-sensitive (S) rat, a spontaneous model of superimposed preeclampsia. In addition to a control group (n = 13), two groups received STS via drinking water at a dose of 2 g (n = 9) or 3 g per kg body weight per day (n = 8) from gestational day (GD) 10 to 20. Uterine artery resistance index was measured (GD18), urinary protein excretion rate was determined (GD19), and blood pressure and fetal outcomes were evaluated (GD20). At 2 g, STS had no effect on preeclamptic symptoms or fetal outcome. At 3 g, STS reduced maternal hypertension (121.8 ± 3.0 vs. 136.3 ± 2.9), but increased proteinuria (89 ± 15 vs. 56 ± 5 mg/24h), and relative kidney weight (0.86 ± 0.04 vs. 0.73 ± 0.02%). Fetal/placental weight ratio was reduced (3.83 ± 0.07 vs. 4.31 ± 0.08) without affecting litter size. No differences in uterine artery flow or renal histological damage were noted across treatment groups. While these data suggest a promising antihypertensive effect that could imply prolongation of preeclamptic pregnancies, the unfavorable effects on proteinuria, kidney weight, and fetal/placental weight ratio implies that clinical implementation of STS is contra-indicated until safety for mother and child can be verified.</p

Prenatal Use of Sildenafil in Fetal Growth Restriction and Its Effect on Neonatal Tissue Oxygenation-A Retrospective Analysis of Hemodynamic Data From Participants of the Dutch STRIDER Trial

Objective: Sildenafil is under investigation as a potential agent to improve uteroplacental perfusion in fetal growth restriction (FGR). However, the STRIDER RCT was halted after interim analysis due to futility and higher rates of persistent pulmonary hypertension and mortality in sildenafil-exposed neonates. This hypothesis-generating study within the Dutch STRIDER trial sought to understand what happened to these neonates by studying their regional tissue oxygen saturation (rSO2) within the first 72 h after birth. Methods: Pregnant women with FGR received 25 mg placebo or sildenafil thrice daily within the Dutch STRIDER trial. We retrospectively analyzed the cerebral and renal rSO2 monitored with near-infrared spectroscopy (NIRS) in a subset of neonates admitted to two participating neonatal intensive care units, in which NIRS is part of standard care. Secondarily, blood pressure and heart rate were analyzed to aid interpretation. Differences in oxygenation levels and interaction with time (slope) between placebo- and sildenafil-exposed groups were tested using mixed effects analyses with multiple comparisons tests. Results: Cerebral rSO2 levels were not different between treatment groups (79 vs. 77%; both n = 14) with comparable slopes. Sildenafil-exposed infants (n = 5) showed lower renal rSO2 than placebo-exposed infants (n = 6) during several time intervals on day one and two. At 69-72 h, however, the sildenafil group showed higher renal rSO2 than the placebo group. Initially, diastolic blood pressure was higher and heart rate lower in the sildenafil than the placebo group, which changed during day two. Conclusions: Although limited by sample size, our data suggest that prenatal sildenafil alters renal but not cerebral oxygenation in FGR neonates during the first 72 post-natal hours. The observed changes in renal oxygenation could reflect a vasoconstrictive rebound from sildenafil. Similar changes observed in accompanying vital parameters support this hypothesis

Developmental programming in human umbilical cord vein endothelial cells following fetal growth restriction

Background: Fetal growth restriction (FGR) is associated with an increased susceptibility for various noncommunicable diseases in adulthood, including cardiovascular and renal disease. During FGR, reduced uteroplacental blood flow, oxygen and nutrient supply to the fetus are hypothesized to detrimentally influence cardiovascular and renal programming. This study examined whether developmental programming profiles, especially related to the cardiovascular and renal system, differ in human umbilical vein endothelial cells (HUVECs) collected from pregnancies complicated by placental insufficiency-induced FGR compared to normal growth pregnancies. Our approach, involving transcriptomic profiling by RNA-sequencing and gene set enrichment analysis focused on cardiovascular and renal gene sets and targeted DNA methylation assays, contributes to the identification of targets underlying long-term cardiovascular and renal diseases. Results: Gene set enrichment analysis showed several downregulated gene sets, most of them involved in immune or inflammatory pathways or cell cycle pathways. seven of the 22 significantly upregulated gene sets related to kidney development and four gene sets involved with cardiovascular health and function were downregulated in FGR (n = 11) versus control (n = 8). Transcriptomic profiling by RNA-sequencing revealed downregulated expression of LGALS1, FPR3 and NRM and upregulation of lincRNA RP5-855F14.1 in FGR compared to controls. DNA methylation was similar for LGALS1 between study groups, but relative hypomethylation of FPR3 and hypermethylation of NRM were present in FGR, especially in male offspring. Absolute differences in methylation were, however, small. Conclusion: This study showed upregulation of gene sets related to renal development in HUVECs collected from pregnancies complicated by FGR compared to control donors. The differentially expressed gene sets related to cardiovascular function and health might be in line with the downregulated expression of NRM and upregulated expression of lincRNA RP5-855F14.1 in FG

Cardiorenal disease following fetal growth restriction : Prevention starts in utero

Fetal growth restriction is a condition in which the foetus can not reach its growth potential. It is mostly caused by poor placentation in which reduced oxygen and nutrients reach the fetus. Fetal growth restriction is associated with increased risk of cardiovascular and renal disease in adulthood. In this thesis we investigate 1) which underlying mechanisms lead to this increased risk in adulthood and who is most at risk; 2) whether we can prevent or reduce this risk of cardiovascular and renal disease with treatment during pregnancy. Part 1: In this thesis we found that fetal growth restriction leads to higher blood pressure in later life. The oxygen levels in the kidneys are also increased due to possibly less oxygen consumption of the kidneys in newborns who had suffered fetal growth restriction. This measuring method could be used to detect infants at risk for kidney disease at an early stage and then provide timely treatment to prevent both kidney disease and elevated blood pressure. We have also found a number of changes in gene expression in umbilical cord cells. These differences may be related to cardiovascular disease and abnormal kidney development. These differences could serve as a starting point for future treatments. Part 2: Various drugs have been devised over the years that could potentially improve fetal growth and thus reduce the risk of cardiovascular disease and kidney disease. A promising drug that we have tested in this thesis is Sildenafil. Sildenafil induces vasodilation in the placenta, allowing more oxygen and nutrients towards the fetus. In a meta-analysis we show that it reduces the maternal blood pressure and increases birthweight. In an animal experiment, we observed that administration of sildenafil during pregnancies complicated with fetal growth retardation leads to higher birth weight and lower blood pressure. However, in a human study, we found no improvement in neonatal oxygen levels in the newborns and no effects on gene expression in umbilical cord or placenta cells. This difference between animals and humans may be explained by a lower dose in humans

Sildenafil during Pregnancy : A Preclinical Meta-Analysis on Fetal Growth and Maternal Blood Pressure

Sildenafil is a new approach to treat fetal growth restriction (FGR) and preeclampsia. We performed a systematic meta-analysis to evaluate effects of sildenafil. Our search identified 22 animal studies (mouse, rat, rabbit, sheep, and guinea pigs) and 2 human randomized controlled trials. Data were pooled using ratio of means and mean differences with 95% confidence intervals for fetal growth and maternal blood pressure, respectively. Meta-regression analyses were performed for study-related factors that might affect efficacy of sildenafil, including the model used (healthy pregnancy versus FGR/preeclampsia) and route of administration. Dose-response curves with dose per metabolic weight (mg/kg0.75 per 24 hours) were fitted using splines. Our analyses show that sildenafil increases fetal growth during FGR/preeclampsia pregnancy compared with healthy pregnancy (1.10 [1.06-1.13] versus 1.03 [0.99-1.06]; P=0.006). There was no significant effect on fetal growth in the absence of FGR/preeclampsia. Effects were similar among different species and largest after oral and continuous administration. There was a positive relation between dose and fetal growth up to a human equivalent dose of ≈450 mg/d. A significant blood pressure-lowering effect of sildenafil is present during FGR/preeclampsia pregnancy only (-19 [-25 to -13] mm Hg; P<0.01), with the effect size being highly dependent on baseline blood pressure and without effect in the absence of hypertension. This meta-analysis supports that sildenafil improves fetal growth and maternal blood pressure regulation during FGR and preeclampsia pregnancy. The greatest beneficial effects on fetal growth are with dosages greater than those currently used in human studies

Developmental programming in human umbilical cord vein endothelial cells following fetal growth restriction

BACKGROUND: Fetal growth restriction (FGR) is associated with an increased susceptibility for various noncommunicable diseases in adulthood, including cardiovascular and renal disease. During FGR, reduced uteroplacental blood flow, oxygen and nutrient supply to the fetus are hypothesized to detrimentally influence cardiovascular and renal programming. This study examined whether developmental programming profiles, especially related to the cardiovascular and renal system, differ in human umbilical vein endothelial cells (HUVECs) collected from pregnancies complicated by placental insufficiency-induced FGR compared to normal growth pregnancies. Our approach, involving transcriptomic profiling by RNA-sequencing and gene set enrichment analysis focused on cardiovascular and renal gene sets and targeted DNA methylation assays, contributes to the identification of targets underlying long-term cardiovascular and renal diseases.RESULTS: Gene set enrichment analysis showed several downregulated gene sets, most of them involved in immune or inflammatory pathways or cell cycle pathways. seven of the 22 significantly upregulated gene sets related to kidney development and four gene sets involved with cardiovascular health and function were downregulated in FGR (n = 11) versus control (n = 8). Transcriptomic profiling by RNA-sequencing revealed downregulated expression of LGALS1, FPR3 and NRM and upregulation of lincRNA RP5-855F14.1 in FGR compared to controls. DNA methylation was similar for LGALS1 between study groups, but relative hypomethylation of FPR3 and hypermethylation of NRM were present in FGR, especially in male offspring. Absolute differences in methylation were, however, small.CONCLUSION: This study showed upregulation of gene sets related to renal development in HUVECs collected from pregnancies complicated by FGR compared to control donors. The differentially expressed gene sets related to cardiovascular function and health might be in line with the downregulated expression of NRM and upregulated expression of lincRNA RP5-855F14.1 in FGR samples; NRM is involved in cardiac remodeling, and lincRNAs are correlated with cardiovascular diseases. Future studies should elucidate whether the downregulated LGALS1 and FPR3 expressions in FGR are angiogenesis-modulating regulators leading to placental insufficiency-induced FGR or whether the expression of these genes can be used as a biomarker for increased cardiovascular risk. Altered DNA methylation might partly underlie FPR3 and NRM differential gene expression differences in a sex-dependent manner.</p

Sildenafil during Pregnancy : A Preclinical Meta-Analysis on Fetal Growth and Maternal Blood Pressure

Sildenafil is a new approach to treat fetal growth restriction (FGR) and preeclampsia. We performed a systematic meta-analysis to evaluate effects of sildenafil. Our search identified 22 animal studies (mouse, rat, rabbit, sheep, and guinea pigs) and 2 human randomized controlled trials. Data were pooled using ratio of means and mean differences with 95% confidence intervals for fetal growth and maternal blood pressure, respectively. Meta-regression analyses were performed for study-related factors that might affect efficacy of sildenafil, including the model used (healthy pregnancy versus FGR/preeclampsia) and route of administration. Dose-response curves with dose per metabolic weight (mg/kg0.75 per 24 hours) were fitted using splines. Our analyses show that sildenafil increases fetal growth during FGR/preeclampsia pregnancy compared with healthy pregnancy (1.10 [1.06-1.13] versus 1.03 [0.99-1.06]; P=0.006). There was no significant effect on fetal growth in the absence of FGR/preeclampsia. Effects were similar among different species and largest after oral and continuous administration. There was a positive relation between dose and fetal growth up to a human equivalent dose of ≈450 mg/d. A significant blood pressure-lowering effect of sildenafil is present during FGR/preeclampsia pregnancy only (-19 [-25 to -13] mm Hg; P<0.01), with the effect size being highly dependent on baseline blood pressure and without effect in the absence of hypertension. This meta-analysis supports that sildenafil improves fetal growth and maternal blood pressure regulation during FGR and preeclampsia pregnancy. The greatest beneficial effects on fetal growth are with dosages greater than those currently used in human studies