1. Le Doare K, Holder B, Bassett A, Pannaraj PS. Mother’s milk: a purposeful contribution to the development of the infant microbiota and immunity. Front Immunol. 2018;9:361
2. Field CJ. The immunological components of human milk and their effect on immune development in infants. J Nutr. 2005;135(1):1–4
3. Garofalo R. Cytokines in human milk. J Pediatr. 2010; 156(2 suppl):S36–S40
4. Gordon JI, Dewey KG, Mills DA, Medzhitov RM. The human gut microbiota and undernutrition. Sci Transl Med. 2012; 4(137):137ps12
5. WHO Collaborative Study Team on the Role of Breastfeeding on the Prevention of Infant Mortality. Effect of breastfeeding on infant and child mortality due to infectious diseases in less developed countries: a pooled analysis. Lancet. 2000;355(9202):451–455
6. Duijts L, Ramadhani MK, Moll HA. Breastfeeding protects against infectious diseases during infancy in industrialized countries: a systematic review. Matern Child Nutr. 2009;5(3):199–210 7. Molloy EJ, Wynn JL, Bliss J, et al; Infection, Inflammation, Immunology and Immunisation (I4) section of the ESPR. Neonatal sepsis: need for consensus definition, collaboration and core outcomes. Pediatr Res. 2020;88(1):2–4
8. Zhang X, Zhivaki D, Lo-Man R. Unique aspects of the perinatal immune system. Nat Rev Immunol. 2017;17(8):495–507
9. Fleiss B, Gressens P. Tertiary mechanisms of brain damage: a new hope for treatment of cerebral palsy? Lancet Neurol. 2012; 11(6):556–566
10. El Manouni El Hassani S, Berkhout DJC, Niemarkt HJ, et al. Risk factors for late-onset sepsis in preterm infants: a multicenter case control study. Neonatology. 2019;116(1):42–51
11. Cortez J, Makker K, Kraemer DF, Neu J, Sharma R, Hudak ML. Maternal milk feedings reduce sepsis, necrotizing enterocolitis and improve outcomes of premature infants. J Perinatol. 2018;38(1):71–74
12. Hassiotou F, Hepworth AR, Metzger P, et al. Maternal and infant infections stimulate a rapid leukocyte response in breast milk. Clin Transl Immunology. 2013;2(4):e3
13. Thai JD, Gregory KE. Bioactive factors in human breast milk attenuate intestinal inflammation during early life. Nutrients. 2020; 12(2):E581
14. Gopalakrishna KP, Macadangdang BR, Rogers MB, et al. Maternal IgA protects against the development of necrotizing enterocolitis in preterm infants. Nat Med. 2019;25(7):1110–1115 15. Gila-Diaz A, Arribas SM, Algara A, et al. A review of bioactive factors in human breast milk: a focus on prematurity. Nutrients. 2019;11(6):E1307
16. Rajani PS, Seppo AE, Järvinen KM. Immunologically active components in human milk and development of atopic disease, with emphasis on food allergy, in the pediatric population. Front Pediatr. 2018; 6:218
17. Saso A, Blyuss O, Munblit D, Faal A, Moore SE, Le Doare K. Breast milk cytokines and early growth in Gambian infants. Front Pediatr. 2019;6:414
18. Gregory KE, Walker WA. Immunologic factors in human milk and disease prevention in the preterm infant. Curr Pediatr Rep. 2013;1(4). doi: 10.1007/s40124-013-0028-2
19. Dvorak B. Milk epidermal growth factor and gut protection. J Pediatr. 2010;156(2 suppl):S31–S35
20. Kobata R, Tsukahara H, Ohshima Y, et al. High levels of growth factors in human breast milk. Early Hum Dev. 2008;84(1):67–69
21. Embleton ND, Berrington JE, McGuire W, Stewart CJ, Cummings SP. Lactoferrin: antimicrobial activity and therapeutic potential. Semin Fetal Neonatal Med. 2013; 18(3):143–149
22. Griffiths J, Jenkins P, Vargova M, et al; ELFIN trial investigators group. Enteral lactoferrin supplementation for very preterm infants: a randomised placebo-controlled trial. Lancet. 2019;393(10170):423–433
23. Tarnow-Mordi WO, Abdel-Latif ME, Martin A, et al; LIFT collaborators. The effect of lactoferrin supplementation on death or major morbidity in very low birth weight infants (LIFT): a multicentre, double-blind, randomised controlled trial. Lancet Child Adolesc Health. 2020;4(6):444–454
24. Real A, Purdue M, Pintos MC, et al. Multipotent stem cells of mother’s milk. J Pediatr Neonat Individual Med. 2016;5(1):e050103
25. Cregan MD, Fan Y, Appelbee A, et al. Identification of nest in positive putative mammary stem cells in human breastmilk. Cell Tissue Res. 2007; 329(1):129–136
26. Zhou L, Yoshimura Y, Huang Y, et al. Two independent pathways of maternal cell transmission to offspring: through placenta during pregnancy and by breast-feeding after birth. Immunology. 2000;101(4):570–580
27. Wirt DP, Adkins LT, Palkowetz KH, Schmalstieg FC, Goldman AS. Activated and memory T lymphocytes in human milk. Cytometry. 1992; 13(3):282–290
28. Sabbaj S, Ghosh MK, Edwards BH, et al. Breast milk-derived antigen-specific CD8þ T cells: an extra lymphoid effector memory cell population in humans. J Immunol. 2005; 174(5):2951–2956
29. Ramsay DT, Kent JC, Owens RA, Hartmann PE. Ultrasound imaging of milk ejection in the breast of lactating women. Pediatrics. 2004; 113(2):361–367
30. Aydin MS, Yigit EN, Vatandas¸ lar E, Erdogan E, Öztürk G. Transfer and integration of breast milk stem cells to the brain of suckling pups. Sci Rep. 2018;8(1):14289
31. Pacheco AR, Barile D, Underwood MA, Mills DA. The impact of the milk glycobiome on the neonate gut microbiota. Annu Rev Anim Biosci. 2015;3(1):419–445
32. Zivkovic AM, German JB, Lebrilla CB, Mills DA. Human milk glycobiome and its impact on the infant gastrointestinal microbiota. Proc Natl Acad Sci U S A. 2011;108 (suppl 1):4653–4658
33. Niñonuevo MR, Lebrilla CB. Mass spectrometric methods for analysis of oligosaccharides in human milk. Nutr Rev. 2009; 67(suppl 2):S216–S226
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