1.
Maternal epigenetics and fetal and neonatal growth.
Kitsiou-Tzeli, S, Tzetis, M
Current opinion in endocrinology, diabetes, and obesity. 2017;(1):43-46
Abstract
PURPOSE OF REVIEW The article provides an update on new insights of factors altering inherited maternal epigenome that ultimately affect fetal and neonatal growth. RECENT FINDINGS A number of new publications have identified mechanisms through which maternal nutrition, environmental exposures such as stress and toxic substances altering expression of imprinted genes during pregnancy can influence fetal and neonatal phenotype and susceptibility to disease development later in life. The possible causes of metabolic syndrome by in-utero epigenetic alterations of genes involved in energy metabolism (PPARγ and PPARα), microRNAs, arginine methyltransferases, lysine demethylases, and histone deacetylaces have been elucidated. Moreover associations between methylation of key genes (NRC31, HSD11β1/2, GFI1) involved in the hypothalamic-pituitary-adrenal axis have been identified. Alcohol exposure during pregnancy was found to alter methylation patterns of several imprinted genes (H19, SLC22A18, SLC6A3, DRD4). Finally alterations in vulnerable epigenetic marks of imprinted genes such as H19/IGF2, during early stages of embryonic development result in intrauterine growth restriction. SUMMARY All these investigations continue to provide new insights for improved clinical management of in-utero development.
2.
Impact of maternal nutritional status before and during pregnancy on neonatal body composition: A cross-sectional study.
Pacce, S, Saure, C, Mazza, CS, Garcia, S, Tomzig, RG, Lopez, AP, Ribarola, L, Krochick, GA
Diabetes & metabolic syndrome. 2016;(1 Suppl 1):S7-S12
Abstract
BACKGROUND The existence of early factors which, acting during critical periods of intrauterine or immediate postnatal development, determine long-term health has become increasingly recognized. Both high and low birth weight have been associated with cardiovascular risk factors in adulthood. Therefore, body composition at birth rather than birth weight may be a marker to predict future diseases. Maternal weight previous to and gained during pregnancy is associated with intrauterine fetal growth. OBJECTIVE To evaluate the correlation between maternal nutritional status before and during pregnancy and neonatal body composition. MATERIAL AND METHODS We studied consecutive mother-child pairs at delivery at an Argentinean public hospital during 5 months period, evaluating maternal and neonatal anthropometry before 24h of life as well as the history of the mother before and during pregnancy. Neonatal body composition was calculated according to a mathematical formula based on skinfold thickness measurement validated in newborns. RESULTS Mothers of newborns with high body fat mass were more frequently obese (72.7% versus 35.1%, p 0.005), and more frequently showed weight gain above 18kg during pregnancy (76.4% versus 31%, p 0.03). CONCLUSIONS Our findings confirm the hypothesis that maternal obesity before pregnancy is highly correlated with neonatal fat mass in the first hours of life.
3.
Feeding Protocols for Neonates With Hypoplastic Left Heart Syndrome: A Review.
Jenkins, E
AACN advanced critical care. 2015;(3):215-21
Abstract
Optimizing nutrition in neonates with hypoplastic left heart syndrome is essential, given the high rate of growth failure in this population. Infants with hypoplastic left heart syndrome are predisposed to nutritional deficiency as a result of their increased metabolic demand; however, early enteral feeding also increases the risk of serious gastrointestinal morbidity and mortality caused by poor intestinal perfusion. Consequently, providers have difficulty deciding when and how to safely feed these patients. A review of the literature found that implementation of a structured enteral feeding protocol may decrease the risk of gastrointestinal complications while also minimizing dependence on parenteral nutrition and decreasing length of hospital stay. As these studies were limited, further research is warranted to establish a best practice feeding protocol to decrease risk and optimize nutrition in this fragile population.
4.
Neonatal cardiovascular physiology.
Hines, MH
Seminars in pediatric surgery. 2013;(4):174-8
Abstract
The pediatric surgeon deals with a large number and variety of congenital defects in neonates that frequently involve early surgical intervention and care. Because the neonatal cardiac physiology is unique, starting with the transition from fetal circulation and including differences in calcium metabolism and myocardial microscopic structure and function, it serves the pediatric surgeon well to have a sound understanding of these principles and how they directly and indirectly affect their plans and treatments. In addition, many patients will have associated congenital heart disease that can also dramatically influence not only the surgical and anesthetic care but also the timing and planning of procedures. Finally, the pediatric surgeon is often called upon to treat conditions and complications associated with complex congenital heart disease such as feeding difficulties, bowel perforations, and malrotation in heterotaxy syndromes. In this article, we will review several unique aspects of neonatal cardiac physiology along with the basic physiology of the major groups of congenital heart disease to better prepare the training and practicing pediatric surgeon for care of these complex and often fragile patients.