Dimitrakopoulou Eftychia Ioanna, Pouliakis Abraham, Falaina Vasiliki, Xanthos Theodoros, Zoumpoulakis Panagiotis, Tsiaka Thalia, Sokou Rozeta, Iliodromiti Zoi, Boutsikou Theodora, Iacovidou Nicoletta
Department of Neonatology, National and Kapodistrian University of Athens, 157 72 Athens, Greece.
2nd Department of Pathology, National and Kapodistrian University of Athens, 124 62 Athens, Greece.
Children (Basel). 2022 Jan 25;9(2):154. doi: 10.3390/children9020154.
The composition and the metabolic activity of the gut microbiota of breastfed and formula-fed infants has been the focus of several studies over the last two decades. Gene sequencing techniques and metabolomics in biological samples have led to expansion of our knowledge in this field. A more thorough comprehension of the metabolic role of the intestinal microbiota could assist and expedite the development of optimal feeding strategies. The aim of this systematic review is to present available data regarding the effect of the feed type on the infantile intestinal microbiota (microbial composition and metabolites) by DNA-sequencing and metabolome analysis of neonatal stool.
A systematic search of the literature in PubMed was attempted to establish relevant studies. Randomized controlled trials studying the diversity and composition of gut microbiota and metabolites of infants that received different types of feed were included. The study subjects were infants/neonates born at term or preterm receiving either breast, donor, or formula milk. Formula could be either classic or fortified with probiotics, prebiotics, or both. The included trials compared the differences on metagenomics and metabolomics of infantile stool, aiming at investigating the beneficial effects of fortification of formula with synbiotics.
Out of 1452 papers identified by the initial search, seven were selected for inclusion, following screening for eligibility. Eligibility was determined by closer examination for relevance of the title, abstract, and subsequent full text. The results of these studies mostly support that the feed type modulates the microbiome composition. In terms of the alpha-diversity, no significant difference exists between the feeding groups, whereas significant differences were noted with regards to beta-diversity in breastfed and formula-fed infants. As for the microbial composition, the studies revealed different populations in the formula-fed group compared to the breastfed group at the phylum and genus level. Bifidobacteria supplementation of infant formula did not seem to change the proportions of Bifidobacterial sequences during the first year of life. Another finding according to the studies is that the pH of fecal samples in breastfed as well as prebiotic-supplemented formula-fed infants. was significantly lower than that of formula-fed infants. Infant milk formula with a mixture of prebiotics (GOS/FOS oligosaccharides) was shown to be capable of selectively stimulating the growth of Bifidobacteria with analogous changes in fecal pH and short-chain fatty acid content in fully formula-fed infants.
Overall, there is evidence to support that feed type modulates the infants' microbiome constitution. The impact of feeding on term and preterm microbiota could have potential benefits on intestinal functionality, immune system, and metabolism, and probably pursuing the host for life.
在过去二十年中,母乳喂养和配方奶喂养婴儿的肠道微生物群的组成和代谢活性一直是多项研究的重点。生物样本中的基因测序技术和代谢组学拓展了我们在这一领域的知识。更全面地理解肠道微生物群的代谢作用有助于并加速最佳喂养策略的制定。本系统评价的目的是通过对新生儿粪便进行DNA测序和代谢组分析,呈现关于喂养类型对婴儿肠道微生物群(微生物组成和代谢物)影响的现有数据。
尝试在PubMed中系统检索文献以确定相关研究。纳入研究不同类型喂养婴儿的肠道微生物群和代谢物多样性及组成的随机对照试验。研究对象为足月或早产的婴儿/新生儿,他们接受母乳、捐赠母乳或配方奶喂养。配方奶可以是经典配方奶,也可以添加益生菌、益生元或两者都添加。纳入的试验比较婴儿粪便宏基因组学和代谢组学的差异,旨在研究添加合生元对配方奶的有益影响。
在初步检索到的1452篇论文中,经过资格筛选后,7篇被选中纳入。通过仔细检查标题、摘要及后续全文的相关性来确定资格。这些研究结果大多支持喂养类型会调节微生物群组成。就α多样性而言,各喂养组之间无显著差异,而在母乳喂养和配方奶喂养婴儿的β多样性方面存在显著差异。至于微生物组成,研究显示在门和属水平上,配方奶喂养组与母乳喂养组的菌群不同。在生命的第一年,在婴儿配方奶中添加双歧杆菌似乎并未改变双歧杆菌序列的比例。根据研究的另一项发现是,母乳喂养以及添加益生元的配方奶喂养婴儿的粪便样本pH值显著低于配方奶喂养婴儿。含有益生元混合物(低聚半乳糖/低聚果糖)的婴儿配方奶能够选择性地刺激双歧杆菌生长,同时完全配方奶喂养婴儿的粪便pH值和短链脂肪酸含量也会发生类似变化。
总体而言,有证据支持喂养类型会调节婴儿的微生物群构成。喂养对足月和早产婴儿微生物群的影响可能对肠道功能、免疫系统和新陈代谢有潜在益处,并且可能会影响宿主一生。
