Effects of progesterone on hyperoxia-induced damage in mouse C8-D1A astrocytes

Introduction The birth of most mammals features a dramatic increase in oxygen while placenta-derived hormones such as β-estradiol and progesterone plummet. In experimental newborn animals, transiently elevated oxygen concentrations cause death of neurons, astrocytes, and oligodendrocyte precursors. High oxygen has been associated with cerebral palsy in human preterm infants while progesterone is being used to prevent preterm delivery and investigated as a neuroprotective agent. Methods In this study, we investigated the effects of hyperoxia (80% O2 for 24, 48, and 72 h) on cultured C8-D1A astrocytes in the presence or absence of progesterone at concentrations ranging from 10−9 to 10−5 mol/L. Results Hyperoxia measured by methytetrazolium assay (MTT) reduced cell viability, increased release of lactate dehydrogenase (LDH), reduced carboxyfluorescein diacetate succinimidyl ester (CFSE)-assessed cell proliferation, and downregulated Cylin D2 expression. Progesterone did not affect any of these hyperoxia-mediated indicators of cell death or malfunctioning. Real-time PCR analysis showed that hyperoxia caused downregulation of the progesterone receptors PR-AB und PR-B. Conclusions Our experiments showed that there was no protective effect of progesterone on hyperoxia-inducted cell damage on mouse C8-D1A astrocytes. Down regulation of the progesterone receptors might be linked to the lack of protective effects

Milk Curd Obstruction in Human Milk-Fed Preterm Infants

Background: Milk curd obstruction as a cause of intestinal obstruction has been known since 1959, but has nearly disappeared. However, in recent years it has experienced a revival in small premature infants. Objective: The aim of this study was to evaluate the clinical characteristics of milk curd obstruction (lactobezoar) in preterm infants. Methods: Data of preterm infants with milk curd obstruction cared for at a large tertiary neonatal intensive care unit between 2012 and 2016 were retrieved from the electronic registry and paper records. Results: A total of 10 infants (2 girls, 8 boys) were identified: the median birth weight was 595 g (range 270-922), gestational age was 24.4 weeks (23.4-27.0), weight-for-gestational age percentile was 16 (0-62), and age at diagnosis was 28 days (16-64). Five infants (50%) were small for gestational age. All neonates had received fortified human milk (added protein 2.0 g/100 mL, range 0-2.8; added calcium 2,400 μmol/100 mL, range 0-6 844; added phosphate 2,400 μmol/100 mL, range 0-5,178). Seven neonates underwent surgery, and 2 infants died. Hyperechoic masses in extended bowel loops, visualised by abdominal ultrasound, and pale/acholic faeces were hallmarks of milk curd obstruction. Conclusions: In this study, milk curd obstruction occurred exclusively in infants with a birth weight < 1,000 g (2.2%) and <28 weeks' gestational age (2.4%). Male and small for gestational age infants appeared to be at increased risk. Paying attention to the colour of the faeces of infants at risk might help to diagnose milk curd obstruction at an early stage

Updating Clinical Practices to Promote and Protect Human Milk and Breastfeeding in a COVID-19 Era

The COVID-19 pandemic has impacted breastfeeding and lactation globally, with clinical practices implemented early in the pandemic being mostly anti-breastfeeding, e.g., separation of mothers from their infants, and not evidence based. As the pandemic has progressed, evidence has emerged reconfirming the value of human milk and the importance of protecting and supporting breastfeeding, especially the initiation of lactation. However, it is clear that COVID-19 has changed the clinical care paradigm around breastfeeding and lactation support and, as such, it is imperative that practices adapt and evolve to maintain the emphasis on lactation support. We participated in a round table conference aiming to rescue and develop protocols and practices that support breastfeeding during the COVID-19 pandemic. One key area to target will be to maximize the use of the antenatal period. The early identification of lactation risk factors together with the development of person-centered methods to deliver breastfeeding information and education to parents-to-be will be critical. In addition, the establishment of a hospital culture that values breastfeeding and prioritizes the use of human milk will be integral for the motivation of health care professionals. That culture will also support active management of the initiation of lactation and the development of a 'back-up plan' toolkit to support the mother experiencing lactation difficulties. Post-discharge support will also be crucial with the development of both in-person and virtual lactation support programs, in particular for the immediate post-discharge period to benefit mothers who experience an early discharge process. These measures will allow for a new, adapted framework of practice that acknowledges the current COVID-19 paradigm and maintains the emphasis on the need to protect and support breastfeeding and the use of human milk