Yang Lin, Hui Yan, Sangild Per Torp, Kot Witold Piotr, Aunsholt Lise, Zachariassen Gitte, Jiang Ping-Ping, Nielsen Dennis Sandris
Section for Comparative Paediatrics and Nutrition, Department of Veterinary and Animal Sciences, University of Copenhagen, Frederiksberg, Denmark.
Department of Food Science, University of Copenhagen, Frederiksberg, Denmark.
mSystems. 2025 Mar 18;10(3):e0091624. doi: 10.1128/msystems.00916-24. Epub 2025 Feb 21.
Very preterm infants (VPIs) are born with an immature gut and predisposed to gut microbiota dysbiosis-related diseases, for example, necrotizing enterocolitis. Although fortification of human milk is required for these infants, the optimal fortifier remains uncertain. Bovine colostrum (BC), rich in protein and bioactive components, could serve as an alternative to conventional fortifiers (CF). The gut microbiota (GM) of 225 VPIs fed human milk fortified with either BC or CF (FortiColos study, NCT03537365) was profiled by 16S rRNA gene amplicon sequencing of fecal samples collected before, and after 1 and 2 weeks of fortification. Birth mode exhibited transient effects on the microbial community structure shortly after birth, with cesarean section-born VPIs dominated by , whereas vaginally born VPIs were dominated by . This birth mode-derived difference diminished with age and disappeared around 1 month after birth. Fortifier type affected the microbial community structure to a modest extent, but no specific taxa significantly differed between the BC and CF groups. Fecal pH, increased by BC, was positively correlated with and and negatively with abundance. Change in the relative abundance of was negatively correlated with body weight gain. Collectively, fortification of human milk with BC or CF does influence the GM of VPIs but only to a modest extent during early life. Birth mode appears to have a significant, but temporary influence on the GM during this period.IMPORTANCEEarly life is a key period for gut microbiota (GM) establishment, where enteral feeding plays a significant role. This is also the case for infants born preterm, who, due to their immature gut, are at a high risk of developing GM dysbiosis-related diseases. Human milk is the optimal feed for preterm infants, but it requires fortification to reach adequate levels of especially protein. Only a few studies have investigated the impact of fortifiers on GM development in preterm infants. Here, we demonstrate that two different bovine milk-based fortifiers, bovine colostrum and a conventional fortifier based on mature bovine milk, exhibit limited effects on the microbial community structure of very preterm infants. These findings suggest that although great care in terms of optimally maturing the preterm infant GM should be taken, the choice of fortifier only has limited impact. In clinical practice, the choice of fortifier can thus be fully focussed on optimizing preterm infant nutrition.CLINICAL TRIALSThis study is registered with ClinicalTrials.gov as NCT03537365.
极早产儿出生时肠道不成熟,易患与肠道微生物群失调相关的疾病,如坏死性小肠结肠炎。尽管这些婴儿需要强化母乳,但最佳强化剂仍不确定。富含蛋白质和生物活性成分的牛初乳可作为传统强化剂的替代品。对225名接受牛初乳或传统强化剂强化母乳喂养的极早产儿(“FortiColos研究”,NCT03537365),在强化前、强化1周和2周后收集粪便样本,通过16S rRNA基因扩增子测序分析其肠道微生物群。出生方式在出生后不久对微生物群落结构有短暂影响,剖宫产出生的极早产儿以 为主,而阴道分娩的极早产儿以 为主。这种出生方式导致的差异随年龄减小,在出生后1个月左右消失。强化剂类型对微生物群落结构有一定影响,但牛初乳组和传统强化剂组之间没有特定的分类群有显著差异。牛初乳使粪便pH值升高,与 和 的丰度呈正相关,与 的丰度呈负相关。 的相对丰度变化与体重增加呈负相关。总体而言,用牛初乳或传统强化剂强化母乳确实会影响极早产儿的肠道微生物群,但在生命早期仅产生一定程度的影响。在此期间,出生方式似乎对肠道微生物群有显著但暂时的影响。
生命早期是肠道微生物群建立的关键时期,肠内喂养在其中起重要作用。对于早产婴儿来说也是如此,由于他们的肠道不成熟,患肠道微生物群失调相关疾病的风险很高。母乳是早产儿的最佳食物,但需要强化以达到足够的水平,尤其是蛋白质。只有少数研究调查了强化剂对早产儿肠道微生物群发育的影响。在此,我们证明两种不同的基于牛乳的强化剂,牛初乳和基于成熟牛乳的传统强化剂,对极早产儿的微生物群落结构影响有限。这些发现表明,尽管应极其谨慎地使早产儿肠道微生物群达到最佳成熟状态,但强化剂的选择影响有限。在临床实践中,强化剂的选择因此可以完全集中于优化早产儿营养。
本研究已在ClinicalTrials.gov注册,注册号为NCT03537365。
