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Pharyngoesophageal motility reflex mechanisms in the human neonate: importance of integrative cross-systems physiology.
Sultana, Z, Hasenstab, KA, Jadcherla, SR
American journal of physiology. Gastrointestinal and liver physiology. 2021;(2):G139-G148
Abstract
Swallowing is a critical function for survival and development in human neonates and requires cross-system coordination between neurological, airway, and digestive motility systems. Development of pharyngoesophageal motility is influenced by intra- and extrauterine development, pregnancy complications, and neonatal comorbidities. The primary role of these motility reflex mechanisms is to maintain aerodigestive homeostasis under basal and adaptive biological conditions including oral feeding, gastroesophageal reflux, and sleep. Failure may result in feeding difficulties, airway compromise, dysphagia, aspiration syndromes, and chronic eating difficulties requiring prolonged tube feeding. We review the integration of cross-systems physiology to describe the basis for physiological and pathophysiological neonatal aerodigestive functions.
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Maternal Dietary Quality and Dietary Inflammation Associations with Offspring Growth, Placental Development, and DNA Methylation.
Lecorguillé, M, Teo, S, Phillips, CM
Nutrients. 2021;(9)
Abstract
The 'Developmental Origins of Health and Diseases' hypothesis posits that prenatal maternal diet influences offspring growth and later life health outcomes. Dietary assessment has focused on selected nutrients. However, this approach does not consider the complex interactions between foods and nutrients. To provide a more comprehensive approach to public health, dietary indices have been developed to assess dietary quality, dietary inflammation and risk factors for non-communicable diseases. Thus far, their use in the context of placental development is limited and associations with offspring outcomes have been inconsistent. Although epidemiological studies have focused on the role of maternal diet on foetal programming, the underlying mechanisms are still poorly understood. Some evidence suggests these associations may be driven by placental and epigenetic changes. In this narrative review, we examine the current literature regarding relationships between key validated diet quality scores (Dietary Inflammatory Index [DII], Mediterranean diet [MD], Healthy Eating Index [HEI], Alternative Healthy Eating Index [AHEI], Dietary Approaches to Stop Hypertension [DASH], Glycaemic Index [GI] and Glycaemic Load [GL]) in pregnancy and birth and long-term offspring outcomes. We summarise findings, discuss potential underlying placental and epigenetic mechanisms, in particular DNA methylation, and highlight the need for further research and public health strategies that incorporate diet quality and epigenetics.
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Breast Milk, a Source of Beneficial Microbes and Associated Benefits for Infant Health.
Lyons, KE, Ryan, CA, Dempsey, EM, Ross, RP, Stanton, C
Nutrients. 2020;(4)
Abstract
Human breast milk is considered the optimum feeding regime for newborn infants due to its ability to provide complete nutrition and many bioactive health factors. Breast feeding is associated with improved infant health and immune development, less incidences of gastrointestinal disease and lower mortality rates than formula fed infants. As well as providing fundamental nutrients to the growing infant, breast milk is a source of commensal bacteria which further enhance infant health by preventing pathogen adhesion and promoting gut colonisation of beneficial microbes. While breast milk was initially considered a sterile fluid and microbes isolated were considered contaminants, it is now widely accepted that breast milk is home to its own unique microbiome. The origins of bacteria in breast milk have been subject to much debate, however, the possibility of an entero-mammary pathway allowing for transfer of microbes from maternal gut to the mammary gland is one potential pathway. Human milk derived strains can be regarded as potential probiotics; therefore, many studies have focused on isolating strains from milk for subsequent use in infant health and nutrition markets. This review aims to discuss mammary gland development in preparation for lactation as well as explore the microbial composition and origins of the human milk microbiota with a focus on probiotic development.
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[Which medications are safe while breastfeeding? : A synopsis for the anesthetist, obstetrician and pediatrician].
Fischer, A, Ortner, C, Hartmann, T, Jochberger, S, Klein, KU
Wiener medizinische Wochenschrift (1946). 2019;(3-4):45-55
Abstract
Pharmacokinetic data on drug administration during lactation are often inconsistent or missing. For legal reasons medicinal drug product information generally advises to interrupt breastfeeding for 24 h after medication intake. However this is not standard of care in clinical practice as the mother should be instructed to initiate breastfeeding as soon as possible after giving birth. At the same time the medication exposure over the breast milk for the newborn should be minimized. Aim of this article is to summarize pharmacokinetic data and to give important clinical information on medications frequently administered during the lactation period. As a general rule a mother can start breastfeeding following anesthesia as soon as she is able to get her baby latched on her breast.
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Maternal risk factors and newborn infant vitamin D status: a scoping literature review.
Sotunde, OF, Laliberte, A, Weiler, HA
Nutrition research (New York, N.Y.). 2019;:1-20
Abstract
Low vitamin D (VitD) status is common among newborn infants, more so in temperate latitudes with evidence that maternal VitD deficiency is a major risk factor given that the neonate relies solely on maternal-fetal transfer of VitD. This scoping review was conducted to provide an overview of the latest evidence from studies regarding the impact of maternal risk factors on infant 25-hydryoxyvitamin D [25(OH)D] concentrations with a focus on studies in Canada and the United States. Several maternal risk factors that contribute to low maternal-fetal 25(OH)D concentrations have been reported over many decades, but no clear pattern has been established for multiethnic populations. For example, darker skin pigmentation and ethnicity are common risk factors for low VitD status. Studies in predominantly white women showed that supplementation of VitD during pregnancy causes significant increases in maternal serum 25(OH)D which often improves cord serum 25(OH)D values. In addition, VitD recommendations by health care professionals and adherence to supplementation by pregnant women appear to positively influence maternal and infant 25(OH)D concentrations. Conversely, winter season, obesity, lower socioeconomic status including lifestyle factors (smoking), and use of medication pose risk for lower maternal-fetal transfer of VitD. However, there is still a dearth of pertinent data on the relationship between some of the maternal risk factors and newborn 25(OH)D concentrations, for instance, relationships between gestational diabetes and neonatal VitD status. Additional research is required to determine if the same target for 25(OH)D concentrations applies for pregnant women, neonates, and infants.
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Anthropometry and Body Composition of Preterm Neonates in the Light of Metabolic Programming.
Parlapani, E, Agakidis, C, Karagiozoglou-Lampoudi, T
Journal of the American College of Nutrition. 2018;(4):350-359
Abstract
The improved survival of preterm infants has led to increased interest regarding their health as adults. In the context of metabolic programming, the connection between perinatal and early postnatal nutrition and growth with health in later life has brought to the fore the role of catch-up growth during the first months of preterm infants' lives and its association with body fat and obesity in childhood or puberty. A state-of-the art review was conducted in order to assess the way catch-up is evaluated, in terms of timing and rate. Adequate growth is of major importance for neurodevelopment; however, it may compete with adiposity or metabolic health. Studies based on body composition assessment have given conflicting results as regards the effect of early versus late and rapid versus slow catch-up growth on later health, mainly attributed to the lack of established criteria and definitions. Given that adequate early nutrition is crucial for the neurodevelopment of preterm infants, further studies are needed on the role of catch-up growth in long-term outcome, using generally accepted qualitative and quantitative criteria.
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Effects of infant formula composition on long-term metabolic health.
Lemaire, M, Le Huërou-Luron, I, Blat, S
Journal of developmental origins of health and disease. 2018;(6):573-589
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Abstract
Early nutrition may have long-lasting metabolic impacts in adulthood. Even though breast milk is the gold standard, most infants are at least partly formula-fed. Despite obvious improvements, infant formulas remain perfectible to reduce the gap between breastfed and formula-fed infants. Improvements such as reducing the protein content, modulating the lipid matrix and adding prebiotics, probiotics and synbiotics, are discussed regarding metabolic health. Numerous questions remain to be answered on how impacting the infant formula composition may modulate the host metabolism and exert long-term benefits. Interactions between early nutrition (composition of human milk and infant formula) and the gut microbiota profile, as well as mechanisms connecting gut microbiota to metabolic health, are highlighted. Gut microbiota stands as a key actor in the nutritional programming but additional well-designed longitudinal human studies are needed.
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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.
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Imprinting, latchment and displacement: a mini review of early instinctual behaviour in newborn infants influencing breastfeeding success.
Mobbs, EJ, Mobbs, GA, Mobbs, AE
Acta paediatrica (Oslo, Norway : 1992). 2016;(1):24-30
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Abstract
UNLABELLED Instinctive behaviours have evolved favouring the mother-infant dyad based on fundamental processes of neurological development, including oral tactile imprinting and latchment. Latchment is the first stage of emotional development based on the successful achievement of biological imprinting. The mechanisms underpinning imprinting are identified and the evolutionary benefits discussed. CONCLUSION It is proposed that the oral tactile imprint to the breast is a keystone for optimal latchment and breastfeeding, promoting evolutionary success.
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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.