World Breastfeeding Week : Building a Healthy Gut Microbiome from Day One
World Breastfeeding Week: Building a Healthy Gut Microbiome from Day One
Microvioma
2,564 followers
August 1, 2024
The role of #breastfeeding in shaping the #infantgut microbiota is increasingly recognized as pivotal for long-term health, providing numerous advantages beyond simple nourishment. It is essential in forming the gut microbiota diversity of infants, which in turn affects many facets of development and health.
The composition of human milk and how it affects the gut microbiota Macronutrients, micronutrients, immunological components, and bioactive molecules make up the complex biofluid known as #breastmilk. Over the course of nursing, its composition changes to accommodate the developing infant’s changing needs.
Below is a breakdown of the main ingredients of breast milk and how they affect the gut microbiota:
Macronutrients
Lipids: Lipids in breast milk include triacylglycerides, diacylglycerides, monoacylglycerides, free fatty acids, phospholipids, and cholesterol. Lipids make up 40–60% of the energy content of mature milk. These fats have bactericidal qualities that can affect the gut microbiome in addition to providing necessary nutrients. For instance, it has been demonstrated that long chain fatty unsaturated fatty acids in breast milk inhibit harmful bacteria while stimulating the growth of Lactobacillus and other beneficial microbes.
Proteins: Whey proteins (α-lactalbumin, lactoferrin, lysozyme, secretory immunoglobulin A) and caseins are the main proteins found in breast milk. These proteins support the developing infant’s immune system and growth. For instance, lactoferrin’s antibacterial qualities, which prevent pathogen growth, help mold the gut microbiota.
Carbohydrates: The primary carbohydrate in breast milk is lactose, which gives newborns a substantial energy boost. Furthermore, the third most abundant component, human milk oligosaccharides (HMOs), is indigestible by humans but acts as a prebiotic, specifically promoting the growth of good gut bacteria like Bifidobacteria.
Micronutrients: Vital vitamins and minerals that are necessary for an infant’s growth are found in breast milk. The composition of the gut microbiota is further influenced by these micronutrients, which also aid in the growth and operation of the immune system.
Immunological Components:
Secretory IgA (SIgA): SIgA binds to pathogens in the gut, preventing their attachment and colonization, thereby promoting a healthy gut microbiota.
Cytokines and Growth Factors: These bioactive molecules, including transforming growth factor-β (TGF-β) and epidermal growth factor (EGF), help modulate the immune response and support gut barrier function, influencing microbiota composition.
Lysozyme: An enzyme capable of breaking down bacterial cell walls, lysozyme enhances the antimicrobial activity of lactoferrin and contributes to the regulation of gut microbiota.
Bioactive Molecules: Human Milk Oligosaccharides (HMOs): HMOs are complex sugars that serve as prebiotics, fostering the growth of beneficial bacteria like Bifidobacteria and inhibiting pathogens by acting as decoy receptors. HMOs also contribute to the maturation of the infant’s immune system and gut barrier function.
Microbiota in Breast Milk and the Gut Microbiota of InfantsBreast milk’s microbiota is dynamic and changes over time in order to meet the baby’s growing demands. Beneficial bacteria including Lactobacillus, Enterobacter, and Bifidobacterium are much more prevalent from day 0 to day 30. The early colonization and development of the baby’s gut microbiota depend on these microorganisms. Studies have demonstrated a correlation between the microbiota in breast milk and the gut microbiota of newborns, with a stronger association seen in infants who are exclusively breastfed as opposed to those who get mixed feeding.
Impact indirectly via means of Short-Chain Fatty Acids (SCFAs)Short-chain fatty acid synthesis is one of the main ways breast milk affects an infant’s gut flora (SCFAs). When indigestible carbohydrates ferment, gut bacteria create metabolites called saturated fatty acids (SCFAs). SCFAs like acetic acid are common in infants who are exclusively breastfed, indicating that the microbiota in breast milk may change the relative amounts and concentrations of these metabolites. Because of this modification, the growth of advantageous bacteria like Bifidobacterium is encouraged, and these bacteria can ferment HMOs by using pathways like the “Acetyl CoA Pathway.”
Breastfeeding and Microbial Diversity
The composition of breast milk varies at different stages of lactation, impacting the microbial diversity of the infant gut. Early breastfeeding is associated with higher levels of beneficial bacteria, including Lactobacillus and Bifidobacterium, which are known to regulate intestinal microbiota, inhibit pathogenic microorganisms, and promote the absorption of nutrients.
Challenges and Considerations in Preterm Infants
Preterm infants, who are at higher risk for conditions like #necrotizingenterocolitis (NEC) and late-onset sepsis (LOS), benefit significantly from breast milk. colostrum contains higher levels of proteins, fats, and bioactive components, including HMOs, cytokines, and lactoferrin, which are crucial for immune protection and gut health. Breast milk reduces the risk of NEC, supports neurodevelopment, and promotes overall growth in preterm infants.
Donor Human Milk and Supplementation
When a mother’s own milk is not available, #donorhumanmilk (DHM) is often used. While DHM retains many beneficial components, pasteurization can reduce the concentrations of some key elements. Research suggests that supplementing infant formulas with #prebiotics, #probiotics, and HMOs can help mimic the benefits of #breastmilk, promoting the growth of beneficial gut bacteria and reducing the risk of NEC and infections.Breast milk is more than just a source of nutrition; it is a complex biofluid that plays a pivotal role in the early development of the infant gut microbiota. The dynamic interplay between breast milk microbiota and infant gut bacteria sets the foundation for long-term health and well-being. Understanding these mechanisms opens avenues for enhancing infant formulas and developing targeted interventions to support infant health, particularly in vulnerable populations like preterm infants.