A. Coumans

Intracisternal Application of Endotoxin Enhances the Susceptibility to Subsequent Hypoxic-Ischemic Brain Damage in Neonatal Rats

Perinatal brain damage is associated not only with hypoxic-ischemic insults but also with intrauterine inflammation. A combination of antenatal inflammation and asphyxia increases the risk of cerebral palsy >70 times. The aim of the present study was to determine the effect of intracisternal (i.c.) administration of endotoxin [lipopolysaccharides (LPS)] on subsequent hypoxic-ischemic brain damage in neonatal rats. Seven-day-old Wistar rats were subjected to i.c. application of NaCl or LPS (5 μg/pup). One hour later, the left common carotid artery was exposed through a midline neck incision and ligated with 6-0 surgical silk. After another hour of recovery, the pups were subjected to a hypoxic gas mixture (8% oxygen/92% nitrogen) for 60 min. The animals were randomized to four experimental groups:1) sham control group, left common carotid artery exposed but not ligated (n = 5);2) LPS group, subjected to i.c. application of LPS (n = 7);3) hypoxic-ischemic study group, i.c. injection of NaCl and exposure to hypoxia after ligation of the left carotid artery (n = 17); or 4) hypoxic-ischemic/LPS study group, i.c. injection of LPS and exposure to hypoxia after ligation of the left carotid artery (n = 19). Seven days later, neonatal brains were assessed for neuronal cell damage. In a second set of experiments, rat pups received an i.c. injection of LPS (5 μg/pup) and were evaluated for tumor necrosis factor-α expression by immunohistochemistry. Neuronal cell damage could not be observed in the sham control or in the LPS group. In the hypoxic-ischemic/LPS group, neuronal injury in the cerebral cortex was significantly higher than in animals that were subjected to hypoxia/ischemia after i.c. application of NaCl. Injecting LPS intracisternally caused a marked expression of tumor necrosis factor-α in the leptomeninges. Applying LPS intracisternally sensitizes the immature rat brain to a subsequent hypoxic-ischemic insult.

Endotoxemia severely affects circulation during normoxia and asphyxia in immature fetal sheep.

Objective: The purpose of the present study was to determine whether endotoxins (lipopolysaccharides, LPS) affect the fetal cardiovascular system in a way likely to cause brain damage. Methods: Thirteen fetal sheep were chronically instrumented at a mean gestational age of 107 ± 1 days. After control measurements of organ blood flow (microsphere method), blood gases, and acid base balance were obtained, seven of 13 fetuses received LPS (53 ± 3 μg/kg fetal weight) intravenously. Sixty minutes later, asphyxia was induced by occlusion of the maternal aorta for 2 minutes. Measurements of organ blood flows were made at -60, -1, +2, +4, +30, and +60 minutes. Results: Unlike in the control group, after LPS infusion there was a significant decrease in arterial oxygen saturation (-46%; P <.001) and pH (P <.001). In LPS-treated fetuses the portion of combined ventricular output directed to the placenta decreased significantly (-76%; P <.001), whereas output to the fetal body (+60%; P <.001), heart (+167%; P <.05), and adrenals (+229%; P <.01) increased. Furthermore, during asphyxia circulatory centralization was impaired considerably in LPS-treated fetuses, and there was clear evidence of circulatory decentralization. This decentralization caused a severe decrease in cerebral oxygen delivery by 70%. Wihin 30 minutes after induction of asphyxia five of seven LPS-treated featuses died, whereas all control fetuses recovered completely. Conclusions: Endotoxemia severely impaired fetal cardiovascular control during normoxia and asphyxia, resulting in a considerable decrease in cerebral oxygen delivery. These effects might have important effects in the development of fetal brain damage associated with intrauterine infection.

Trial by Dutch Laboratories for Evaluation of Non-Invasive Prenatal Testing. Part I - Clinical Impact

To evaluate the clinical impact of nationwide implementation of genome‐wide non‐invasive prenatal testing (NIPT) in pregnancies at increased risk for fetal trisomies 21, 18 and 13 (TRIDENT study).

Increased Maternal/Fetal Blood S100B Levels Following Systemic Endotoxin Administration and Periventricular White Matter Injury in Preterm Fetal Sheep

Objective. Intrauterine infection is suggested to cause perinatal brain white matter injury. In the current study, we evaluated whether S100B, a brain damage marker, may be also assessed in maternal bloodstream after white matter injury induced by fetal intravenous application of lypopolisaccharide (LPS) endotoxin. Methods. Fourteen fetal sheeps were chronically catheterized at a mean gestational age of 107 days. Three days after surgery, fetuses (n = 7) received 500 ng of LPS or 2 mL 0.9% saline (n = 7) intravenously (IV). Lypopolisaccharide and placebo groups were monitored by continuous hemodynamic data recordings and at 6 predetermined time points (control value; 3, 6, 24, 48, and 72 hours after LPS/placebo administration) blood was drawn for laboratory parameters and S100B assessment. Brain damage was evaluated by light microscopy after Klüver-Barrera staining. Selected areas of the periventricular white matter were also examined by electron microscopy. Results. White matter injury was detected in all LPS-treated fetuses, whereas no abnormalities were seen in control animals or in LPS-treated mothers. Maternal and fetal S100B protein levels were significantly higher in the LPS group than in the control group at all monitoring time points (P < .001). The highest fetal-maternal S100B levels were observed at 3-hour time-point (P < .001). Conclusions. We found that S100B protein is increased in the maternal district in presence of fetal periventricular brain white matter injury induced by endotoxin. The present data offer additional support for S100B assessment in the maternal circulation in pregnancies complicated by intrauterine infection at risk of white matter injury.

Nitric oxide and fetal organ blood flow during normoxia and hypoxemia in endotoxin-treated fetal sheep.

OBJECTIVE: To investigate the role of nitric oxide in the process of circulatory decentralization during fetal hypoxemia. METHODS: Fifteen sheep with singleton pregnancies were chronically instrumented at 107 days of gestation (term is 147 days). Three days later, 8 of the fetuses received nitro-l-arginine methyl ester (L-NAME), an inhibitor of nitric oxide synthesis. Fifteen minutes after L-NAME administration, all 15 fetuses received lipopolysaccharides (LPS) from a strain of Escherichia coli. The 7 fetuses that received LPS only were used as controls. Sixty minutes after LPS was administered, the maternal aorta was occluded for 2 minutes in all fetuses. Organ blood flow and physiological variables were measured at 75 minutes before the start of occlusion (ie, at the time of L-NAME administration to the experimental group), at 1 minute before the start of occlusion, and at 2, 4, and 30 minutes after the start of occlusion. RESULTS: Arterial pH was lower in the L-NAME group than in the control group at 1 minute before and 2 minutes after occlusion. Mean arterial pressure was higher in the L-NAME group than in the control group at 2 and 4 minutes after occlusion. Cardiac output fell in the L-NAME group and was lower than in the control group; the percentage of cardiac output to the cerebrum in the L-NAME group was 35% lower than that in the control group. Throughout the study, placental blood flow decreased by more than 80% in both groups and remained low. Blood flow to the fetal body decreased by 65% in the L-NAME group and was lower than in the control group. Blood flow to the carcass also decreased in the L-NAME group and was 36% of that in the control group. CONCLUSION: Inhibition of nitric oxide synthesis causes a general vasoconstriction in practically all organs and leads to a reduction in LPS-induced circulatory decentralization. The changes in blood flow distribution in endotoxin-treated fetal sheep seem to be mediated in part by nitric oxide.

Trial by Dutch laboratories for evaluation of non-invasive prenatal testing. Part II—women's perspectives†

To evaluate preferences and decision‐making among high‐risk pregnant women offered a choice between Non‐Invasive Prenatal Testing (NIPT), invasive testing or no further testing.

The Role of Nitric Oxide on Fetal Cardiovascular Control During Normoxia and Acute Hypoxia in 0.75 Gestation Sheep

Objective: The role of nitric oxide in control of fetal cardiovascular functions and of cerebral blood flow during normoxia and acute hypoxia is only partially known. We studied the effects of nitric oxide synthase inhibition on the distribution of cardiac output in preterm sheep using Nω-nitro-L-arginine methyl ester (L-NAME). Methods: Thirteen fetal sheep were instrumented at a gestational age of 107 days. Three days later fetuses received L-NAME (n = 7) or vehicle infusion (n = 6). At 0 minutes, acute hypoxia was induced by occasion of the maternal aorta for 2 minutes. Organ blood flows (microsphere method) and physiologic variables (fetal heart rate, mean arterial pressure [MAP], oxygen saturation, and pH) were measured at -75, -1, +2, +4, and +30 minutes. Results: L-NAME caused bradycardia and an increase in MAP. A significant decrease in cardiac output by 32% occurred in the control group during the control period, which was consequently reflected in organ blood flows. L-NAME injection reduced cardiac output by 64% during normoxia. Blood flow to the fetal body, placenta, and cerebrum decreased by 62%, 66%, and 55%, respectively. During acute hypoxia, L-NAME did not change the redistribution of cardiac output toward the central organs. In the L-NAME group MAP increased, and fetal heart rate was maintained; in contrast, in controls MAP initially decreased and then returned to control values while fetal heart rate decreased. After hypoxia L-NAKE delayed the recovery of cardiac output and blunted the increase in blood flow to the brain and heart. Conclusion: Although influenced by fetal stress after extensive instrumentation, the results of this study indicate that nitric oxide plays a role in fetal cardiovascular control during normoxia and acute hypoxia. Nitric oxide also mediates the increase in blood flow to the brain and heart immediately after hypoxia.

The Effects of Low-Dose Endotoxin on the Umbilicoplacental Circulation in Preterm Sheep

Objective: In the present study we examined the effects of low-dose endotoxin (lipopolysaccharides, LPS) on continuously recorded umbilical blood flow. Methods: Twenty fetal sheep were catheterized at a gestational age of 107 ± 1 days. A flow probe was placed around eithe rthe common umbilical artery or one single umbilical artery. Three days later fetuses received either 100 or 500 nanograms of LPS (n = 14) or 2 mL saline (n = 6) intravenously. Six fetuses died within 12 hours after LPS. Fetal heart rate (FHR), mean arterial pressume (MAP), and umbilical blood flow (Qumb) were monitored for 3 days. Results: FHR increased by 25 ± 4% at 4-5 hours after LPS (P < .01) and was elevated for 15 hours after LPS. MAP increased 18 ± 5% 1 hour after LPS (P < .01) and returned to control value 4-5 hours after LPS. Qumb began to decrease 1 hour after LPS and was minimal (-30 ± 7%, P < .001) at 4-5 hours after LPS. Qumb slowly returned to the control value at 12 hours after LPS. Placental vascular resistance increased by 73 ± 37% (P < .01), whereas pH did not appreciably change. Conclusion: Intravenous application of endotoxin caused a substantial and long-lasting decrease in umbilical blood flow resulting in fetal hypoxemia without acidemia. These effects may be of significance in the development of fetal brain damage associated with intrauterine infection.

Outcome of Multifetal Pregnancy Reduction in Women with a Dichorionic Triamniotic Triplet Pregnancy to a Singleton Pregnancy : A Retrospective Nationwide Cohort Study

Objective: To study the pregnancy outcomes of women with a dichorionic triamniotic triplet pregnancy that was reduced to a singleton pregnancy and to review the literature. Methods: We performed a nationwide retrospective cohort study. We compared time to delivery and perinatal mortality in dichorionic triplet pregnancies reduced to singletons with ongoing dichorionic triplet pregnancies and primary singleton pregnancies. Additionally, we reviewed the literature on the subject. Results: We studied 46 women with a reduced dichorionic triplet pregnancy and 42 women with an ongoing dichorionic triplet pregnancy. Median gestational age at delivery was 38.7 vs. 32.8 weeks, respectively (p < 0.001). Delivery <24 weeks occurred in 9 (19.6%) women with a reduced triplet pregnancy and 4 (9.5%) with an ongoing triplet pregnancy (p = 0.19). Perinatal survival rates between the reduced group and the ongoing triplet group were not significantly different. Conclusion: Multifetal pregnancy reduction in women with a dichorionic triplet pregnancy to a singleton pregnancy prolongs median gestational age at birth. No statistically significant association was found with miscarriage and perinatal survival rates.

Advantages and Disadvantages of Different Implementation Strategies of Non-Invasive Prenatal Testing in Down Syndrome Screening Programmes

Background: Implementation of non-invasive prenatal testing (NIPT) in Down syndrome screening programmes requires health policy decisions about its combination with other tests and its timing in pregnancy. Aim: Our aim was to aid health policy decision makers by conducting a quantitative analysis of different NIPT implementation strategies. Methods: Decision trees were created to illustrate all plausible alternatives in a theoretical cohort of 100,000 pregnant women in five screening programmes: classical screening by the first-trimester combined test (FCT), pre-selection of high-risk women prior to NIPT by the FCT, NIPT as the first screening test at 10 weeks and at 13 weeks, and the simultaneous conductance of NIPT and the FCT. Results: Pre-selection by FCT prior to NIPT reduces the number of amniocenteses to a minimum because of a reduction of false-positive NIPT results. If NIPT is the first screening test, it detects almost all fetal Down syndrome cases. NIPT at 10 weeks reassures women early in pregnancy, while NIPT at 13 weeks prevents unnecessary tests due to spontaneous miscarriages and allows for immediate confirmation by amniocentesis. Conclusion: Every implementation strategy has its advantages and disadvantages. The most favourable implementation strategy may be NIPT as the first screening test at 13 weeks, offering the most accurate screening test for Down syndrome, when the risk for spontaneous miscarriage has declined remarkably and timely confirmation by amniocentesis can be performed.