Several studies have shown that growth failure in preterm infants affects health in later life and compromises brain development¹,². Avoiding growth failure is a central challenge when it comes to preterm nutrition¹–³.
Preterm infants have increased nutritional needs, particularly if they are to achieve the growth velocity of a child that grows full-term in its mother’s womb⁴,⁵. These requirements are much higher than those of a term-born peer⁴⁻⁶. Medical associations, such as the European Society for Gastroenterology, Hepatology and Nutrition (ESPGHAN)⁶ and the American Academy of Pediatrics (AAP)⁷, as well as neonatal experts⁸, address these requirements by giving specific recommendations for premature infants born weighing less than 1,000g, less than 1,500g and less than 1,800g. All the associations acknowledge that protein is a key nutrient in avoiding growth failure, as long as enough energy is provided⁶⁻⁸.
Breast is best
In line with the World Health Organization (WHO) we believe that human milk is the best nutrition for preterm infants⁹. Breastfeeding and human milk are the preferred feeding modes and offer the best nutrition for infants¹⁰⁻¹³.
The composition of human milk is highly variable and tailored to the individual nutritional needs of an infant¹⁴⁻¹⁶. For preterm infants on parenteral feeds, trophic feeding with human milk soon after birth is recommended to prepare the intestine for enteral feeding³,¹¹,¹².
Benefits of maternal human milk
Beyond the benefits of breastfeeding known for full-term infants¹⁷, feeding preterm babies with human milk:
- Offers immune protection against infection³,¹¹,¹²
- Reduces the risk of necrotising enterocolitis (NEC)³,¹¹,¹²
- Prepares the gut for enteral feeding³,¹¹,¹²
- Supports healthy gut development³,¹¹,¹²
- Provides enzymes for fat absorption¹²
- Is associated with improved neurocognitive development³,¹¹,¹²
- Is well tolerated³,¹¹,¹² and personalised to the mother-infant¹⁵,¹⁶
Colostrum, a pre-milk fluid rich in immunoglobulins and immune cells that is produced during the first 24-48 hours postpartum, is especially important for immune protection and gut maturation and should never be discarded¹².
Donor human milk
If own mothers milk (OMM) is not available, donor human milk (DHM) from milk banks is the next preferred alternative for preterm infant feeding¹³. However, as with OMM, DHM is not nutrient enriched enough to meet the unique requirements of extreme and very premature infants. In these cases, fortification (i.e. adding macro- and micronutrients to human milk or a multicomponent Human Milk Fortifier (HMF)) is required⁶,⁸,¹⁸.
What is fortification?
Human milk fortification is associated with improved growth and brain development³,⁶,⁸,¹⁰⁻¹³,¹⁸. Infants born weighing less than 1,800g are recommended to feed with fortified human milk enriched in energy, macronutrients, minerals and vitamins⁶,⁸ in order to achieve growth rates similar to those of the fetus. However, infants born weighing less than 1,000g and/or those born small-for-gestational age may need an even faster weight gain for recovering growth¹⁹,²⁰ as they have even higher protein and energy needs⁶,⁸,⁹,¹⁹.
40 years of early life science
Nutricia Early Life Nutrition has over 40 years of breast milk expertise with a dedicated team of around 250 specialist scientists collaborating with hospitals, laboratories and universities worldwide to ensure we are leaders in this field. At Nutricia Early Life Nutrition, science is at the heart of our nutrition and health commitment to help healthcare professionals support parents during the first 1,000 days of life. Our research and innovation delivers evidence-based nutritional solutions to support a child’s lifelong health, combining our Early Life Nutrition expertise with years of professional experience to develop a portfolio of products to support the nutritional needs of mothers, mothers-to-be and their babies.
Publication: Nutricia, pioneers in human milk research
References
- Ehrenkranz, Richard A., et al. “Growth in the neonatal intensive care unit influences neurodevelopmental and growth outcomes of extremely low birth weight infants.” Pediatrics 117.4 (2006): 1253-1261.
- Stephens, Bonnie E., et al. “First-week protein and energy intakes are associated with 18-month developmental outcomes in extremely low birth weight infants.” Pediatrics 123.5 (2009): 1337-1343.
- Klein (Ed.). (2002) J Nutr. 132(6 Suppl 1): 1395S-1577S
- Clark, Reese H., Pam Thomas, and Joyce Peabody. “Extrauterine growth restriction remains a serious problem in prematurely born neonates.” Pediatrics 111.5 (2003): 986-990.
- Agostoni, Carlo, et al. “Enteral nutrient supply for preterm infants: commentary from the European Society of Paediatric Gastroenterology, Hepatology and Nutrition Committee on Nutrition.” Journal of pediatric gastroenterology and nutrition 50.1 (2010): 85-91.
- AAP Committee on Nutrition. (2014) Section II: Feeding the preterm infant. 83–110. In: Kleinman & Greer (Eds.) Pediatric Nutrition. 7th Edition. Elk Grove Village, IL, USA
- Koletzko-Uauy-Pointdexter. (2014) 110: 297–299. Recommended nutrient intake levels for stable, fully enterally fed very low birth weight infants. In: In: Koletzko-Uauy-Pointdexter (Eds.). Nutritional care of preterm infants: Scientifi c basis and practical guidelines. Karger, Basel, Switzerland
- World Health Organization’s infant feeding recommendation (http://www.who.int/nutrition/topics/infantfeeding_recommendation/en/) [Accessed December 2019].
- Howson, Kinney, Lawn (Eds.). (2012) Born Too Soon: The Global Action Report on Preterm Birth. World Health Organisation. Geneva, Switzerland
- Moro, Guido E., et al. “XII. Human milk in feeding premature infants: consensus statement.” Journal of pediatric gastroenterology and nutrition 61.1 (2015): S16-S19.
- Tudehope, David I. “Human milk and the nutritional needs of preterm infants.” The Journal of pediatrics 162.3 (2013): S17-S25.
- Eidelman, Arthur I. “Breastfeeding and the use of human milk: an analysis of the American Academy of Pediatrics 2012 Breastfeeding Policy Statement.” Breastfeeding medicine 7.5 (2012): 323-324.
- Lönnerdal, Bo. “Bioactive proteins in breast milk.” Journal of paediatrics and child health 49 (2013): 1-7.
- Hassiotou, Foteini, et al. “Maternal and infant infections stimulate a rapid leukocyte response in breastmilk.” Clinical & translational immunology 2.4 (2013): e3.
- Powe, Camille E., Cheryl D. Knott, and Nancy Conklin‐Brittain. “Infant sex predicts breast milk energy content.” American Journal of Human Biology: The Official Journal of the Human Biology Association 22.1 (2010): 50-54.
- Hennet, Thierry, and Lubor Borsig. “Breastfed at Tiffany’s.” Trends in Biochemical Sciences 41.6 (2016): 508-518.
- Arslanoglu, Sertac. “IV. Individualized fortification of human milk: Adjustable fortification.” Journal of pediatric gastroenterology and nutrition 61.1 (2015): S4-S5.
- Ziegler, Ekhard E. “Nutrient needs for catch-up growth in low-birthweight infants.” Low-Birthweight Baby: Born Too Soon or Too Small. Vol. 81. Karger Publishers, 2015. 135-143.
- Clark, Reese H., Irene E. Olsen, and Alan R. Spitzer. “Assessment of neonatal growth in prematurely born infants.” Clinics in perinatology 41.2 (2014): 295-307.
- Jeurink, Prescilla V., et al. “Mechanisms underlying immune effects of dietary oligosaccharides.” The American journal of clinical nutrition 98.2 (2013): 572S-577S.
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