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Factors Influencing Growth of Children Aged 12-24 Months in the Tanga Region, Tanzania.
Elverud, IS, Størdal, K, Chiduo, M, Klingenberg, C
Journal of tropical pediatrics. 2020;(2):210-217
Abstract
BACKGROUND The first 1000 days of life, from conception to the second birthday, offer a unique window of opportunity for optimal growth, critical for future health. The primary aim of this study was to analyze growth of children between 12 and 24 months age in Tanzanian children, and to explore possible predictors for growth. METHODS Observational, cross-sectional study performed between March and April 2017. Eligible children, and their mothers, attended routine follow-up at two health clinics in Tanga, Tanzania. At the study day, the child's weight and height were recorded. The mothers answered a structured interview regarding breastfeeding, immunization and socioeconomic conditions. RESULTS We recruited 300 mother-child pairs. Median [interquartile range (IQR)] age at study visit was 16 (14-20) months. Mothers reported that 170 (57%) of their children were exclusively breastfed for a minimum of 6 months; median (IQR) 6 (4-6) months. Using the World Health Organization (WHO) standard growth curves, mean weight-for-age Z-score was -0.30 and mean length-for-age Z-score was -0.47. Children whose mothers had higher education had higher Z-scores for weight and length compared to children of mothers with lower education. Education remained the most important predictor for growth also after adjusting for other variables. Overall, 48/300 (16%) were moderate-severe stunted and 25/300 (8.4%) had moderate-severe underweight. CONCLUSION Children aged 12-24 months in this region of Tanzania had weight and height below the WHO standard. Higher educated mothers had children with better growth parameters. Duration of exclusive breastfeeding was long, but did not predict growth parameters.
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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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The Role of Human Milk Oligosaccharides and Probiotics on the Neonatal Microbiome and Risk of Necrotizing Enterocolitis: A Narrative Review.
Nolan, LS, Rimer, JM, Good, M
Nutrients. 2020;(10)
Abstract
Preterm infants are a vulnerable population at risk of intestinal dysbiosis. The newborn microbiome is dominated by Bifidobacterium species, though abnormal microbial colonization can occur by exogenous factors such as mode of delivery, formula feeding, and exposure to antibiotics. Therefore, preterm infants are predisposed to sepsis and necrotizing enterocolitis (NEC), a fatal gastrointestinal disorder, due to an impaired intestinal barrier, immature immunity, and a dysbiotic gut microbiome. Properties of human milk serve as protection in the prevention of NEC. Human milk oligosaccharides (HMOs) and the microbiome of breast milk are immunomodulatory components that provide intestinal homeostasis through regulation of the microbiome and protection of the intestinal barrier. Enteral probiotic supplements have been trialed to evaluate their impact on establishing intestinal homeostasis. Here, we review the protective role of HMOs, probiotics, and synbiotic combinations in protecting a vulnerable population from the pathogenic features associated with necrotizing enterocolitis.
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The Impact of Dietary Fucosylated Oligosaccharides and Glycoproteins of Human Milk on Infant Well-Being.
Orczyk-Pawiłowicz, M, Lis-Kuberka, J
Nutrients. 2020;(4)
Abstract
Apart from optimal nutritional value, human milk is the feeding strategy to support the immature immunological system of developing newborns and infants. The most beneficial dietary carbohydrate components of breast milk are human milk oligosaccharides (HMOs) and glycoproteins (HMGs), involved in both specific and nonspecific immunity. Fucosylated oligosaccharides represent the largest fraction of human milk oligosaccharides, with the simplest and the most abundant being 2'-fucosyllactose (2'FL). Fucosylated oligosaccharides, as well as glycans of glycoproteins, as beneficial dietary sugars, elicit anti-adhesive properties against fucose-dependent pathogens, and on the other hand are crucial for growth and metabolism of beneficial bacteria, and in this aspect participate in shaping a healthy microbiome. Well-documented secretor status related differences in the fucosylation profile of HMOs and HMGs may play a key but underestimated role in assessment of susceptibility to fucose-dependent pathogen infections, with a potential impact on applied clinical procedures. Nevertheless, due to genetic factors, about 20% of mothers do not provide their infants with beneficial dietary carbohydrates such as 2'-FL and other α1,2-fucosylated oligosaccharides and glycans of glycoproteins, despite breastfeeding them. The lack of such structures may have important implications for a wide range of aspects of infant well-being and healthcare. In light of the above, some artificial mixtures used in infant nutrition are supplemented with 2'-FL to more closely approximate the unique composition of maternal milk, including dietary-derived fucosylated oligosaccharides and glycoproteins.
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Bifidobacterium longum Subspecies infantis (B. infantis) in Pediatric Nutrition: Current State of Knowledge.
Chichlowski, M, Shah, N, Wampler, JL, Wu, SS, Vanderhoof, JA
Nutrients. 2020;(6)
Abstract
Abstract: Since originally isolated in 1899, the genus Bifidobacterium has been demonstrated to predominate in the gut microbiota of breastfed infants and to benefit the host by accelerating maturation of the immune response, balancing the immune system to suppress inflammation, improving intestinal barrier function, and increasing acetate production. In particular, Bifidobacterium longum subspecies infantis (B. infantis) is well adapted to the infant gut and has co-evolved with the mother-infant dyad and gut microbiome, in part due to its ability to consume complex carbohydrates found in human milk. B. infantis and its human host have a symbiotic relationship that protects the preterm or term neonate and nourishes a healthy gut microbiota prior to weaning. To provide benefits associated with B. infantis to all infants, a number of commercialized strains have been developed over the past decades. As new ingredients become available, safety and suitability must be assessed in preclinical and clinical studies. Consideration of the full clinical evidence for B. infantis use in pediatric nutrition is critical to better understand its potential impacts on infant health and development. Herein we summarize the recent clinical studies utilizing select strains of commercialized B. infantis.
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[The first 1000 days: an opportunity to reduce the burden of noncommunicable diseases].
Moreno Villares, JM, Collado, MC, Larqué, E, Leis Trabazo, R, Saenz De Pipaón, M, Moreno Aznar, LA
Nutricion hospitalaria. 2019;(1):218-232
Abstract
Growth and development are determined by genetic and environmental factors since the very early embryonic life. Long-term health risks, as obesity and other non-communicable diseases (NCD), could be programmed since these early stages. Early life, characterized by plasticity, is the ideal time to intervene and to prevent the risk of suffering a NCD (window of opportunity). Optimal nutrition during the first 1,000 days, since conception to the end of the second year of life, has a determinant role for long-term health. Pregnancy, infancy and toddler periods have specific nutritional requirements. Intestinal microbiota enhances maturation and functioning of the immune system. The interactions between host and intestinal microbiota are potential factors influencing early programming of the intestinal function. Alterations in intestinal colonization are associated to a higher risk of allergic diseases in childhood. Scientific evidence supports the fact that the first 1,000 days are crucial to achieve a better long-term health and represents a strategic period to intervene under the perspective of prevention and public health.
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Solid Food Introduction and the Development of Food Allergies.
Caffarelli, C, Di Mauro, D, Mastrorilli, C, Bottau, P, Cipriani, F, Ricci, G
Nutrients. 2018;(11)
Abstract
The rise of food allergy in childhood, particularly among developed countries, has a significant weight on public health and involves serious implications for patients' quality of life. Even if the mechanisms of food tolerance and the complex interactions between the immune system and environmental factors are still mainly unknown, pediatricians have worldwide implemented preventive measures against allergic diseases. In the last few decades, the prevention of food allergy has tracked various strategies of complementary feeding with a modification of international guidelines from delayed introduction to early weaning. Current evidence shows that complementary foods, including allergenic ones, should be introduced into diet after four months, or even better, following World Health Organization advice, around six months irrespective of risk for allergy of the individual. The introduction of peanut is recommended before 12 months of age among infants affected by severe eczema and/or egg allergy to diminish the occurrence of peanut allergy in countries with high peanut consumption. The introduction of heated egg at 6⁻8 months of age may reduce egg allergy. Infants at high risk of allergy similarly to healthy children should introduce complementary foods taking into account family and cultural preferences.
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Breastfeeding, Childhood Asthma, and Allergic Disease.
Oddy, WH
Annals of nutrition & metabolism. 2017;:26-36
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Abstract
The worldwide prevalence of childhood asthma has been increasing considerably, and the protection afforded by breastfeeding in its development has been the subject of controversy for more than 80 years. Previous systematic reviews have generally found a protective effect of breastfeeding on allergic outcomes, although many studies have methodological limitations. Although breastfeeding is protective against lower respiratory tract infection during infancy, such protection has not been demonstrated for asthma in all studies. Breastfeeding has health benefits for the mother and child. Exclusive breastfeeding for the first 6 months of an infant's life, with continued breastfeeding for up to 2 years or longer, is recognized as the "gold" standard for infant feeding because human milk is uniquely suited to the human infant, and its nutritional content and bioactivity promote a healthy development. There is increasing concern that the practice of delaying complementary foods until 6 months may exacerbate the risk of allergic disease. Breast milk contains immunological components that protect against infections and allergic disease in infancy. The composition of human breast milk is complex, containing factors that interact with the infant immune system and intestinal milieu including allergens, cytokines, immunoglobulins, polyunsaturated fatty acids, and chemokines. Transforming growth factor β is a cytokine in human milk involved in maintaining intestinal homeostasis, inflammation regulation, and oral tolerance development. Modern day society, with increased standards of hygiene, has changed the gut flora of Western infants, potentially impacting the risk of developing immune-mediated diseases including allergic disease and asthma. Microbial diversity is intrinsic to healthy immune maturation and function. Compared to breastfed infants, formula-fed infants had lower bacterial diversity and an altered intestinal microbiota in the first few weeks of life associated with an increased risk of eczema and asthma. Favorable gut colonization through continued breastfeeding may promote tolerance as well as protection when complementary feeding is initiated.
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Reduction of Arachidonate Is Associated With Increase in B-Cell Activation Marker in Infants: A Randomized Trial.
Miklavcic, JJ, Larsen, BM, Mazurak, VC, Scalabrin, DM, MacDonald, IM, Shoemaker, GK, Casey, L, Van Aerde, JE, Clandinin, MT
Journal of pediatric gastroenterology and nutrition. 2017;(3):446-453
Abstract
BACKGROUND Infants who are not breast-fed benefit from formula with both docosahexaenoic acid (C22:6n3) and arachidonic acid (ARA; C20:4n6). The amount of ARA needed to support immune function is unknown. Infants who carry specific fatty acid desaturase (FADS) polymorphisms may require more dietary ARA to maintain adequate ARA status. OBJECTIVE The aim of the study was to determine whether ARA intake or FADS polymorphisms alter ARA levels of lymphocytes, plasma, and red blood cells in term infants fed infant formula. METHODS Infants (N = 89) were enrolled in this prospective, double-blind controlled study. Infants were randomized to consume formula containing 17 mg docosahexaenoic acid and 0, 25, or 34 mg ARA/100 kcal for 10 weeks. Fatty acid composition of plasma phosphatidylcholine and phosphatidylethanolamine, total fatty acids of lymphocytes and red blood cells, activation markers of lymphocytes, and polymorphisms in FADS1 and FADS2 were determined. RESULTS Lymphocyte ARA was higher in the 25-ARA formula group than in the 0- or 34-ARA groups. In plasma, 16:0/20:4 and 18:0/20:4 species of phosphatidylcholine and phosphatidylethanolamine were highest and 16:0/18:2 and 18:0/18:2 were lowest in the 34-ARA formula group. In minor allele carriers of FADS1 and FADS2, plasma ARA content was elevated only at the highest level of ARA consumed. B-cell activation marker CD54 was elevated in infants who consumed formula containing no ARA. CONCLUSIONS ARA level in plasma is reduced by low ARA consumption and by minor alleles in FADS. Dietary ARA may exert an immunoregulatory role on B-cell activation by decreasing 16:0/18:2 and 18:0/18:2 species of phospholipids. ARA intake from 25 to 34 mg/100 kcal is sufficient to maintain cell ARA level in infants across genotypes.
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Early-Life Nutritional Programming of Health and Disease in The Gambia.
Moore, SE
Annals of nutrition & metabolism. 2017;(3):179-183
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Abstract
BACKGROUND Exposures during early life are increasingly being recognised as factors that play an important role in the aetiology of chronic non-communicable diseases (NCDs). The "Developmental Origins of Health and Disease" (DOHaD) hypothesis asserts that adverse early-life exposures - most notably unbalanced nutrition - leads to an increased risk for a range of NCDs and that disease risk is highest when there is a "mismatch" between the early- and later-life environments. Thus, the DOHaD hypothesis would predict highest risk in settings undergoing a rapid nutrition transition. SUMMARY We investigated the link between early-life nutritional exposures and long-term health in rural Gambia, West Africa. Using demographic data dating back to the 1940s, the follow-up of randomised controlled trials of nutritional supplementation in pregnancy, and the "experiment of nature" that seasonality in this region provides, we investigated the DOHaD hypothesis in a population with high rates of maternal and infant under-nutrition, a high burden from infectious disease, and an emerging risk of NCDs. Key Messages: Our work in rural Gambia suggests that in populations with high rates of under-nutrition in early life, the immune system may be sensitive to nutritional deficiencies early in life, resulting in a greater susceptibility to infection-related morbidity and mortality.