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The benefits of lower-protein infant and follow-on formula and the long-term impact on health

Posted: 15 May 2017 | New Food | No comments yet

Diana Salih, Nutrition Graduate, Nestlé UK.

Diana Salih, Nutrition Graduate, Nestlé UK.

References

  1. Koletzko, B., Brands, B., Poston, L. et al. (2012). Early nutrition programming of long-term health. Proceedings of the Nutrition Society. 71, 371-378.
  2. Gunther, A., Buyken, A. & Kroke, A. (2007). Protein intake during the period of complementary feeding and early childhood and the association with body mass index and percentage body fat at 7 y of age. American Journal of Clinical Nutrition. 85, 1626 – 1633.
  3. European Food Safety Authority (EFSA). (2017). Draft Scientific Opinion on the safety and suitability for use by infants of follow-on formulae with a protein content of at least 1.6g/100kcal. Available: https://www.efsa.europa.eu/… Accessed January 2017.
  4. Ballard, O. & Morrow, A. (2013). Human milk composition: nutrient and bioactive factors. Pediatr Clin North Am. 60(1), 49 – 74.
  5. Aaltonen, J., Ojala, T., Laitinen, K. et al. (2011). Impact of maternal diet during pregnancy and breastfeeding on infant metabolic programming: a prospective randomized controlled study. European Journal of Clinical Nutrition. 65, 10 – 19.
  6. Weber, M., Grote, V., Closa-Monasterolo, R. et al. (2014). Lower protein content in infant formula reduces BMI and obesity risk at school age: follow-up of a randomized control trial. The American Journal of Clinical Nutrition. 99, 1041 – 1051.
  7. Nestlé Nutrition Institute. (2013). Protein requirements in early childhood. Available: https://www.nestlenutrition-institute.org/… Accessed January 2017.
  8. Koletzko, B., Kries, R., Closa, R. et al. (2009). Lower protein in infant formula is associated with lower weight up to age 2 y: a randomised clinical trial. The American Journal of Clinical Nutrition. 89, 1836-1845.
  9. Harder, T., Bergmann, R., Kallischnigg, G. et al. (2005). Duration of breastfeeding and risk of overweight: a meta-analysis. American Journal of Epidemiology. 162(5), 397 – 403.
  10. World Health Organization. (2002). Infant and young child nutrition Global strategy on infant and young child feeding. Available: http://apps.who.int/… Accessed: January 2017
  11. Department of Health. (2003). Infant Feeding Recommendations. Available: http://webarchive.nationalarchives.gov.uk/…
    http:/www.dh.gov.uk/… Accessed: January 2017.
  12. Horta, B. & Victoria, C. (2013). Long-term effects of breastfeeding: a systematic review. World Health Organization. Available: http://apps.who.int/… Accessed: January 2017.
  13. Lönnerdal, B. (2003). Nutritional and physiological significance of human milk proteins. The American Journal of Clinical Nutrition. 77, 1537-1543.
  14. WHO UK Growth Charts. Available: http://www.rcpch.ac.uk/… Accessed: January 2017.
  15. Singhal, A. & Lucas, A. (2004). Early origins of cardiovascular disease: is there a unifying hypothesis? 363, 1642 – 1645.
  16. Lennox, A., Sommerville, J., Ong, K. et al. (2013). Diet and nutrition survey of infants and young children. Available: https://www.gov.uk/… Accessed: January 2017.
  17. Hardwick, J. & Sidnell, A. Infant nutrition – diet between 6 and 24 months, implications for paediatric growth, overweight and obesity. Nutrition Bulletin. 39, 354 – 363.
  18. Koletzko, B., Dodds, P., Akerblom, H. & Ashwell, M. (2005). Early nutrition and its later consequences: new opportunities. New York: Springer Publishers.
  19. Owen, C., Martin, R., Whincup, P., Smith, G. & Cook, D. (2005). Effect of infant feeding on the risk of obesity across the life course: a quantitative review of published evidence. 115, 1367 – 1377.
  20. Inostroza, J. Haschke, F., Steenhour, P., Grathwohl, D., Nelson, S. & Ziegler, E. (2014). Low-protein formula slows weight gain infants of overweight mothers. Journal of Pediatric Gastroenterology and Nutrition. 59(1), 70 – 77.
  21. Monteiro, P. & Victoria, C. (2005). Rapid growth in infancy and childhood and obesity in later life – a systematic review. Obesity Review. 6, 143 – 154.
  22. Ong, K. & Loos, R. (2006). Rapid infancy weight gain and subsequent obesity: systematic reviews and hopeful suggestions. Acta Paediatr. 95, 904 – 908.
  23. Kirchberg, F., Harder, U., Weber, M. et al. (2015). Dietary protein intake affects amino acid acylcarnitine metabolism in infants aged 6 months. J Clin Endocrinol Metab. 100(1), 149 – 158.
  24. Druet, C., Stettler, N., Sharp, S. et al. (2012). Prediction of childhood obesity by infancy weight gain: an individual-level meta-analysis. Paediatr Perinat Epidemiol. 26, 19 – 26.
  25. Martin, R., Holly, J., Smith G. et al. (2005). Could associations between breastfeeding and insulin-like growth factors underlie associations of breastfeeding with adult chronic disease? The Avon Longitudinal Study of Parents and Children. Clin Endocrinol (Oxf). 62, 728 – 737.
  26. Koletzko, B., Kries, R., Monasterolo, R. et al. (2009). Can infant feeding choices modulate later obesity risk? The American Journal of Clinical Nutrition. 89, 1502S – 1508S.
  27. Koletzko, B., Brands, B. & Demmelmair, H. (2011). The EarlyNutrition Programming Project: five years of successful multi-disciplinary collaborative research. The American Journal of Clinical Nutrition. 94, 1749S – 1753S.
  28. Gluckman, P., Hanson, M. & Cooper, C. et al. (2008). Effect of in utero and early-life conditions of adult health and disease. New Engl J Med. 359, 61 – 73.
  29. Godfrey, K., Gluckman, P. & Hanson, M. (2010). Developmental origins of metabolic disease: life course and intergenerational perspectives. Trends Endocrin Met. 21, 199 – 205.
  30. Ruemmele, F. (2011). Early programming effects of nutrition – life-long consequences? Ann Nutr Metab. 58, 5 – 6.
  31. Koletzko, B. (2011). The power of programming: developmental origins of health and disease. Am J Clin Nutr. 94, 1747S – 2043S.
  32. Fomon, S. (2001). Infant feeding in the 20th Century: formula and beikost. The Journal of Nutrition. 131, 409S – 420S.
  33. Lien, E. (2003). Infant formulas with increased concentrations of α-lactalbumin. The American Journal of Clinical Nutrition. 77, 1555S – 1558S.
  34. Heine, W., Klein, P & Reeds, P. (1991). The importance of α-lactalbumin in infant nutrition. The Journal of Nutrition. 121, 277 – 283.
  35. Trabulsi, J., Capeding, R., Lebumfacil, J. et al. (2011). Effect of an α-lactalbumin-enriched infant formula with lower protein on growth. European Journal of Clinical Nutrition. 65, 167 – 174.
  36. Sidnell, A. & Greenstreet, E. (2009). Infant nutrition – protein and its influence on growth rate. Nutrition Bulletin. 34, 395 – 400.
  37. Räihä, N., Fazzolari-Nesci, A., Cajozzo, C. et al. (2002). Whey predominant, whey modified infant formula with protein/energy ratio of 1.8g/100kcal: adequate and safe for term infants from birth to four months. Journal of Pediatric Gastroenterology and Nutrition. 35, 275 – 281.
  38. Csapo, J. & Salamon, S. (2009). Composition of the mother’s milk. Protein contents, amino acid composition, biological value: a review. Acta Univ. Sapientiae, Alimentaria, 2(2), 174–195.
  39. Patent WO2004112508 A1. (2004). Infant or follow-on formula. Available: http://www.google.com/… Accessed January 2017.
  40. Macé, K., Steenhout, P., Klassen, P. & Donnet, A. (2006). Protein quality and quantity in cow’s milk-based formula for healthy term infants: past, present and future. Nestlé Nutrition Workshop, Pediatric Program. 58, 189 – 203.
  41. Fanaro, S. & Vigi, V. (2002). Protein quality and quantity in infant formulas. A critical look. Minerva Pediatr. 54(3), 203 – 209.
  42. SMA® PRO Follow On Milk datacard. Available: https://www.smahcp.co.uk/… Accessed January 2017.
  43. Cow & Gate Follow On Milk datacard. Available: https://www.eln.nutricia.co.uk/… Accessed January 2017.
  44. Aptamil Follow On Milk datacard. Available: https://www.eln.nutricia.co.uk/… Accessed January 2017.
  45. HiPP baby milks comparison chart. Available: http://www.hipp4hcps.co.uk/… Accessed January 2017.
  46. Lönnerdal, B. (2014). Infant formula and infant nutrition: bioactive proteins of human milk and implications for composition of infant formulas. The American Journal of Clinical Nutrition. 99, 712S – 717S.
  47. Heine, W. (1999). The significance of tryptophan in infant nutrition. Adv Exp Med Biol. 467, 705 – 710.
  48. Lönnerdal, B. & Lien, E. (2003). Nutritional and physiologic significance of alpha-lactalbumin in infants. Nutr Rev. 61, 295 – 305.
  49. Fazzolari-Nesci, A., Domianello, D., Sotera, V. & Raiha, N. (1992). Tryotphan fortification of adapted formula increases plasma tryptophan concentrations to levels not different from those found in breast-fed infants. J Peditr Gastroenterol Nutr. 14, 456 – 459.
  50. Davis, A. Harris, B., Lien, E., Pramuk, K. & Trabulsi, J. (2008). Alpha-lactalbumin-rich infant formula fed to healthy term infants in a multicentre study: plasma essential amino acids and gastrointestinal tolerance. Eur J Clin Nutr. 62, 1294 – 1301.
  51. Sandström, O., Lönnerdal, B., Graverholt, G. & Hernell, O. (2008). Effects of alpha-lactalbumin-enriched formula containing different concentrations of glycomacropeptide on infant nutrition. Am J Clin Nutr. 87, 921 – 928.
  52. (European Patent: EP 0 880 902 A1.)
  53. Alexander, D., Yan, J., Bylsma, L. et al. (2016). Growth of infants consuming whey-predominant term infant formulas with a protein content of 1.8g/100kcal: a multicentre pooled analysis of individual participant data. The American Journal of Clinical Nutrition.
  54. De la Hunty, A. (2009). The EU Childhood Obesity Project. Nutrition Bulletin. 34, 403 – 406.
  55. Ziegler, E., Fields, D., Chernausek, S. et al. (2015). Adequacy of infant formula with protein content of 1.6g/100kcal for infants between 3 and 12 months. Journal of Pediatric Gastroenterology and Nutrition. 61(5), 596 – 603.

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