Antenatal Corticosteroids for Fetal Lung Maturity - Too Much of a Good Thing?

Epigenetic programming mediates abnormal gut microbiota and disease susceptibility in offspring with prenatal dexamethasone exposure

Prenatal dexamethasone exposure (PDE) can lead to increased susceptibility to various diseases in adult offspring, but its effect on gut microbiota composition and the relationship with disease susceptibility remains unclear. In this study, we find sex-differential changes in the gut microbiota of 6-month-old infants with prenatal dexamethasone therapy (PDT) that persisted in female infants up to 2.5 years of age with altered bile acid metabolism. PDE female offspring rats show abnormal colonization and composition of gut microbiota and increased susceptibility to cholestatic liver injury. The aberrant gut microbiota colonization in the PDE offspring can be attributed to the inhibited Muc2 expression caused by decreased CDX2 expression before and after birth. Integrating animal and cell experiments, we further confirm that dexamethasone could inhibit Muc2 expression by activating GR/HDAC11 signaling and regulating CDX2 epigenetic modification. This study interprets abnormal gut microbiota and disease susceptibility in PDT offspring from intrauterine intestinal dysplasia.

Ultrasound-based radiomics technology in fetal lung texture analysis prediction of neonatal respiratory morbidity

To develop a novel method for predicting neonatal respiratory morbidity (NRM) by ultrasound-based radiomics technology. In this retrospective study, 430 high-throughput features per fetal-lung image were extracted from 295 fetal lung ultrasound images (four-chamber view) in 295 single pregnancies. Images had been obtained between 28⁺³ and 37⁺⁶ weeks of gestation within 72 h before delivery. A machine-learning model built by RUSBoost (Random under-sampling with AdaBoost) architecture was created using 20 radiomics features extracted from the images and 2 clinical features (gestational age and pregnancy complications) to predict the possibility of NRM. Of the 295 standard fetal lung ultrasound images included, 210 in the training set and 85 in the testing set. The overall performance of the neonatal respiratory morbidity prediction model achieved AUC of 0.88 (95% CI 0.83–0.92) in the training set and 0.83 (95% CI 0.79–0.97) in the testing set, sensitivity of 84.31% (95% CI 79.06–89.44%) in the training set and 77.78% (95% CI 68.30–87.43%) in the testing set, specificity of 81.13% (95% CI 78.16–84.07%) in the training set and 82.09% (95% CI 77.65–86.62%) in the testing set, and accuracy of 81.90% (95% CI 79.34–84.41%) in the training set and 81.18% (95% CI 77.33–85.12%) in the testing set. Ultrasound-based radiomics technology can be used to predict NRM. The results of this study may provide a novel method for non-invasive approaches for the prenatal prediction of NRM.

Antenatal Betamethasone Every 12 Hours in Imminent Preterm Labour

Background: Benefits of antenatal corticosteroids have been established for preterm infants who have received the full course. In imminent preterm labours there is no time to administer the second dose 24 h later. Objective: To determine whether the administration of two doses of betamethasone in a 12 h interval is equivalent to the effects of a full maturation. Methods: We performed a retrospective cohort study including preterm infants ≤34 weeks gestational age at birth and ≤1500 g, admitted to an NICU IIIC level in a tertiary hospital from 2015 to 2020. The population was divided into two cohorts: complete maturation (CM) (two doses of betamethasone 24 h apart), or advanced maturation (AM) (two doses of betamethasone 12 h apart). The primary outcomes were mortality or survival with severe morbidities. The presence of respiratory distress syndrome and other morbidities of prematurity were determined. These variables were analysed in the neonates under 28 weeks gestational age cohort. Neurodevelopment at 2 years was evaluated with the validated Ages and Stages Questionnaires^®, Third Edition (ASQ^®-3). Multiple regression analyses were performed and adjusted for confounding factors. Results: A total of 275 preterm neonates were included. Serious outcomes did not show differences between cohorts, no increased incidence of morbidity was found in AM. A lower percentage of hypotension during the first week (p = 0.04), a tendency towards lower maximum FiO₂ (p = 0.14) and to a shorter mechanical ventilation time (p = 0.14) were observed for the AM cohort. Similar results were found in the subgroup of neonates under 28 weeks gestational age. There were no differences in cerebral palsy or sensory deficits at 24 months of corrected age, although the AM cohort showed a trend towards better scores on the ASQ3 scale. Conclusions: Administration of betamethasone every 12 h showed similar results to the traditional pattern with respect to mortality and severe morbidities. No deleterious neurodevelopmental effects were found at 24 months of corrected age. Earlier administration of betamethasone at 12 h after the first dose would be an alternative in imminent preterm delivery. Further studies are needed to confirm these results.

Inducible factors and interaction of pulmonary fibrosis induced by prenatal dexamethasone exposure in offspring rats

This study aimed to investigate the correlation between prenatal dexamethasone exposure (PDE) and susceptibility to pulmonary fibrosis in offspring. Healthy female Wistar rats were given dexamethasone (0.2 mg/kg.d) or an equal volume of normal saline subcutaneously from 9 to 20 days after conception. Some of their female offspring underwent ovariectomy (OV) at 22 weeks after birth. All animals were euthanized at 28 weeks after birth. The morphological changes related to pulmonary fibrosis and extracellular matrix-related gene expression were detected, and Two-way ANOVA analyzed the interaction between PDE and OV. The results showed that adult offspring rats in FD group (female rats with PDE treatment) had early pulmonary fibrosis changes, such as pulmonary interstitial thickening, and increased expression of type IV collagen (COL4), α -smooth muscle actin (α-SMA) and fibronectin (FN) in lung tissues compared with those in FC group (female rats with saline treatment). In addition, adult offspring rats in FDO group (female rats with PDE and OV treatment) showed signs of pulmonary fibrosis, including apparent extracellular matrix deposition, increased lung injury scores (P＜0.01, P＜0.05), and extracellular matrix related gene expression (P＜0.01, P＜0.05), compared with rats in FDS (female rats with PDE treatment alone) or rats in FCO group (female rats with OV treatment alone). Moreover, PDE and OV had an interactive effect on the development of pulmonary fibrosis in female adult offspring. This study first reported the correlation between PDE and susceptibility to pulmonary fibrosis in female offspring rats, as well as the synergistic effect of PDE and OV in this pathological event, which provided a basis for further understanding of the pathogenesis of fetal originated pulmonary fibrosis.

Dosage escalation of antenatal steroids in preterm twin pregnancies does not improve long-term outcome

OBJECTIVES

To analyze long-term effects of antenatal betamethasone (≤16 mg, =24 mg and >24 mg) in preterm twins on infant and childhood morbidity.

METHODS

Retrospective cohort study among 198 preterm twins. Three follow up time points, including a total of 84 outcomes, were evaluated: first neonatal examination after birth and in the neonatal period up to 10 days after birth using data from the clinic charts; examination from the 21st to the 24th month of life and examination from the 60th to the 64th months, using data from copies of the children's examination booklets sent back by the parents. Dosage-dependent and sex-specific long-term effects of antenatal betamethasone treatment on neonatal, infant and early childhood development and morbidity up to 5.3 years of age were analyzed.

RESULTS

Dosage escalation of >24 mg was not associated with improved neonatal, infant or early child hood outcome, independent of twin pair structure. In contrast, higher doses >24 mg were significantly linked to increased rates of congenital infections (OR 5.867, 95% CI 1.895-18.167). Male sex as a factor was obvious for lower rates of apnea-bradycardia-syndrome in neonates, higher rates of no free steps after 15 months in infancy and highest rates of motor clumsiness in early childhood.

CONCLUSIONS

Betamethasone dosage escalation >24 mg in twins born between 23⁺⁵ and 33⁺⁶ weeks of gestation did not improve neonatal, infant or early childhood morbidity. In contrast, higher doses >24 mg total dose resulted in significantly higher rates of congenital infections and are not recommended. For males, 24 mg betamethasone appears to be the preferable dose.

The effects of betamethasone on clinical outcome of the late preterm neonates born between 34 and 36 weeks of gestation

Background

Prenatal corticosteroid administration in preterm labor is one of the most important treatments available to improve neonatal outcomes; however, its beneficial effects on late preterm infants (after the 34th week of gestation) remained unknown. We aimed to assess the effects of betamethasone on the clinical condition of the late preterm infants born between 34 and 36 weeks of gestation.

Methods

This retrospective cohort study was performed on 100 consecutive infants born between 34 and 36 weeks of gestation and received betamethasone before delivery as the cases and 100 neonates with the same delivery conditions but without receiving betamethasone. All neonates were followed up within hospitalization to assess the neonatal outcome.

Results

The neonates receiving betamethasone suffered more from respiratory distress syndrome (49% versus 31%, p = 0.008, RR = 1.59 95% CI (1.12–2.27)) and requiring more respiratory support (71% versus 50%, p = 0.002, RR = 1.43 95% CI (1.13–1.80)) as compared to the control group. There was no difference between the two groups in other neonatal adverse events or death.

Conclusion

the use of betamethasone in the late preterm period (after 34 weeks of gestation) has no beneficial effects on lung maturity or preventing neonatal adverse outcomes, even may lead to increase the risk for RDS and requiring respiratory support.

Supplementary Information

The online version contains supplementary material available at 10.1186/s12884-021-04246-x.

Long term alterations of growth after antenatal steroids in preterm twin pregnancies

OBJECTIVES

To compare the long-term effects of antenatal betamethasone (ANS, ≤16 mg, =24 mg and >24 mg) in twins on infant and childhood growth.

METHODS

A retrospective cohort follow up study among 198 twins after ANS including three time points: U1 first neonatal examination after birth and in the neonatal period; U7 examination from the 21st to the 24th month of life and U9 examination from the 60th to the 64th month of life using data from copies of the children's examination booklets. Inclusion criteria are twin pregnancies with preterm labor, cervical shortening, preterm premature rupture of membranes, or vaginal bleeding, and exposure to ANS between 23+5 and 33+6 weeks. Outcome measures are dosage-dependent and sex-specific effects of ANS on growth (body weight, body length, head circumference, body mass index and ponderal index) up to 5.3 years.

RESULTS

Overall, 99 live-born twin pairs were included. Negative effects of ANS on fetal growth persisted beyond birth, altered infant and childhood growth, independent of possible confounding factors. Overall weight percentile significantly decreased between infancy and early childhood by 18.8%. Birth weight percentiles significantly changed in a dose dependent and sex specific manner, most obviously in female-female and mixed pairs. The ponderal index significantly decreased up to 42.9%, BMI index increased by up to 33.8%.

CONCLUSIONS

ANS results in long-term alterations in infant and childhood growth. Changes between infancy and early childhood in ponderal mass index and BMI, independent of dose or twin pair structure, might indicate an ANS associated increased risk for later life disease.

SYNOPSIS

First-time report on long-term ANS administration growth effects in twin pregnancies, showing persisting alterations beyond birth in infant and childhood growth up to 5.3 years as potential indicator of later life disease risk.

Subchondral bone dysplasia partly participates in prenatal dexamethasone induced-osteoarthritis susceptibility in female offspring rats

Prenatal dexamethasone exposure (PDE) induces developmental toxicities of multi-organs and susceptibility to multi-diseases in offspring. However, the effects of PDE on osteoarthritis susceptibility in adult offspring and its mechanism have not been reported. In the present study, we treated pregnant Wistar rats with dexamethasone (0.2 mg/kg) daily on gestational days (GD) 9-20. Some pregnant rats were sacrificed on GD20, and the rest were delivered to obtain the postnatal offspring. The adult female offspring rats were performed with ovariectomy or sham operation during postnatal weeks 22-28. We found that PDE led to osteoarthritis phenotypes in articular cartilage and an increase in modified Mankin's score, but reduced the cartilage thickness in female adult offspring rats, which were more evident after ovariectomy. Moreover, PDE reduced the bone mass of subchondral bone in female adult offspring, which was aggravated by ovariectomy. The correlation analysis results indicated that the osteoarthritic phenotype and cartilage thickness were closely associated with the decreased bone mass of subchondral bone induced by PDE. Further, PDE retarded the development of primary and secondary ossification centers, then led to subchondral bone dysplasia, which could be partly mediated by the inhibited osteogenic function before and after birth. Collectively, the subchondral bone dysplasia partly participated in osteoarthritis susceptibility induced by PDE in female offspring rats.

Fetal brain development in small-for-gestational age (SGA) fetuses and normal controls

Objective To assess whether fetal brain structures routinely measured during the second and third trimester ultrasound scans, particularly the width of the cavum septi pellucidi (CSP), differ between fetuses small for gestational age (SGA), fetuses very small for gestational age (VSGA) and normal controls. Methods In this retrospective study, we examined standard ultrasound measurements of 116 VSGA, 131 SGA fetuses and 136 normal controls including the head circumference (HC), transversal diameter of the cerebellum (TCD), the sizes of the lateral ventricle (LV) and the cisterna magna (CM) from the second and third trimester ultrasound scans extracted from a clinical database. We measured the CSP in these archived ultrasound scans. The HC/CSP, HC/LV, HC/CM and HC/TCD ratios were calculated as relative values independent of the fetal size. Results The HC/CSP ratio differed notably between the controls and each of the other groups (VSGA P = 0.018 and SGA P = 0.017). No notable difference in the HC/CSP ratio between the VSGA and SGA groups could be found (P = 0.960). The HC/LV, HC/CM and HC/TCD ratios were similar in all the three groups. Conclusion Relative to HC, the CSP is larger in VSGA and SGA fetuses than in normal controls. However, there is no notable difference between VSGA and SGA fetuses, which might be an indicator for abnormal brain development in this group.

An evaluation of the benefits and harms of antenatal corticosteroid treatment for women at risk of imminent preterm birth or prior to elective Caesarean-section: Study protocol for an individual participant data meta-analysis

Background: Antenatal corticosteroid treatment (ACT) has been widely accepted as a safe, beneficial treatment which improves outcomes following preterm birth. It has been shown to reduce respiratory distress syndrome and neonatal mortality and is commonly used in threatened or planned preterm delivery, as well as prior to elective Caesarean-section at term. There are some concerns however, that in some cases, ACT is used in patients where clinical benefit has not been established, or may potentially increase harm. Many women who receive ACT do not deliver preterm and the long-term consequences of ACT treatment are unclear. This study aims to evaluate the benefits and harms of ACT using latest trial evidence to allow refinement of current practice. Methods: This study will compare ACT with placebo or non-treatment. Inclusion criteria are: Randomised Controlled Trials (RCT) comparing ACT vs. no ACT (with or without placebo) in all settings. Exclusion criteria are: non-randomised or quasi-randomised studies and studies comparing single vs. multiple courses of ACT. Main outcomes are to evaluate, for women at risk of preterm birth or undergoing planned Caesarean- section, the benefits and harms of ACT, on maternal, fetal, newborn, and long-term offspring health outcomes. The individual participant data (IPD) of identified RCTs will be collected and consecutively synthesised using meta-analysis with both a one-stage model where all IPD is analysed together and a two-stage model where treatment effect estimates are calculated for each trial individually first and thereafter pooled in a meta-analysis. Sub-group analysis will be performed to identify heterogeneous effects of ACT across predefined risk groups. Discussion: Co-opt is the Consortium for the Study of Pregnancy Treatments and aims to complete a robust evaluation of the benefits and harms of ACT. This IPD meta-analysis will contribute to this by allowing detailed interrogation of existing trial datasets. PROSPERO registration: CRD42020167312 (03/02/2020).

Maternal-Fetal Circadian Communication During Pregnancy

This article reviews evidence for maternal-fetal communication about the time of day. We explore the hypothesis that key maternal hormones synchronize daily rhythms in the fetus to regulate gestation duration. These findings may help to predict and prevent preterm birth.