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Nutritional Support for Optimal Growth and Brain Development in Premature Infants
1. Nutritional Support to Optimize
Growth and Brain Development of
Premature & Low Birth Weight Infants
Rinawati Rohsiswatmo
2.
3.
4.
5. The Goal of Growth in Preterm Infants
● From return to birth weight through discharge,
the goal of enteral nutritional management should
include requirements for catch-up growth and
should be set for weight gain >18 g/kg/ day and
HC >0.9 cm/week
● This growth rate was associated with better
neurodevelopmental and growth outcomes
● If the growth rate falters → focus on protein
content and the protein/energy ratio (P/E ratio)
William WH Jr. Optimizing Nutrition of The Preterm Infant. Zhongguo Dang Dai Er Ke Za Zhi. 2017 Jan 25;19(1):1–21.
Su BH. Optimizing Nutrition in Preterm infants. Pediatrics & Neonatology. 2014 Feb 1;55(1):5-13.
The goal of nutrition of the preterm infant is to meet the growth rate of the healthy fetus
of the same gestational age and to produce the same body composition of the healthy
fetus in terms of organ growth,tissue components, cell number and structure
6. A Structural MRI Study of Human Brain Development from Birth to 2 Years. J Neurosci. November 19, 2008 • 28(47):12176 –12182.
Early Childhood Brain Development. Todd Twogood, MD, FAAP
(TBV)
Brain Development is Most Rapid in
The First 1000 Days of Life
IntrauterineGrowth in The Last Trimester TBV at 2 years is ~ 83% of adult volume
50 cm
800 g 30 cm 75 g
5600 mg
BW
3500 g
375 g
Body calcium
BL Brain Weight
28000 mg
25 40 25 40 25 40
25 40
7. The Importance of Nutrition for
Brain Development
• In preterm infant, the brain is the most metabolically demanding organ and
consumes the largest amount of energy and nutrients for its function and
programmed growth and maturation
• The number of cell replication cycles in the CNS is decreased in malnutrition →
thereby reducing total brain DNA and leading to reduction in the connections
between neurons
• Alterations in dietary precursors → may affect neurotransmitter levels
The resulting CNS impairment, caused by these nutrient deficiencies,involves motor and cognitive
development and social abilities
Skinner AM, Narchi H. Preterm nutrition and neurodevelopmental outcomes. World J Methodol. 2021 Nov 20;11(6):278-293.
8. The Importance of Nutrition for Brain Development
● Inadequate nutrition during the critical periods of brain development alters the
growth trajectory of the brain and can have permanent negative consequences
● The most critical period of brain growth and development for humans
corresponds to the 3rd trimester of pregnancy and VLBW infants
○ Infantsborn early in the 3rd
trimester miss the placental transfer of nutrientswhich would
create stores for use in the postnatal period
Better linear growth and early gains in fat-free body mass have been found to be associated with improved
neurodevelopment inVLBW preterm infants
Arslanoglu S, Boquien CY, King C, Lamireau D, Tonetto P, Barnett D, et al. Fortification of Human Milk for Preterm Infants: Update and Recommendations of the European Milk Bank Association (EMBA) Working Group on Human Milk
Fortification.
Front Pediatr. 2019;7:76.
9. • 49 preterm neonates → 3 serial MRI scans
• Nutritional intake from age 1-14 days was monitored & clinical factors were collected
• Greater energy and lipid intake predicted increased total brain and basal nuclei volumes over the course of
neonatal care to term-equivalentage
• The association of ventilation duration with smaller brain volumes was attenuated by higher energy intake.
Brain growth predicted psychomotor outcome at 18 months’ corrected age
• Conclusions:In preterm neonates,greater energy and enteral feeding during the first 2 weeks of life
predicted more robustbrain growth and accelerated white matter maturation
• The long-lasting effect of early nutrition on neurodevelopmentmay be mediated by enhanced brain growth
• Optimizing nutrition in preterm neonates may representa potential avenue to mitigate the adverse brain
health consequences of critical illness
Schneider J, Fischer Fumeaux CJ, Duerden EG, Guo T, Foong J, Graz MB, Hagmann P, et al. Nutrient Intake in the First Two Weeks of Life and Brain Growth in Preterm Neonates. Pediatrics. 2018 Mar;141(3):e2
0172169.
11. Human Milk Fortification
● Unfortified HM doesn't provide sufficient amounts of nutrients to tiny preterm infants when
fed at usual feeding volumes
● To prevent EUGR which is associated with poor neurocognitive outcome and to avoid
specific nutrient deficiencies, nutrient fortification of HM is necessary
Arslanoglu S, Boquien CY, King C, Lamireau D, Tonetto P, Barnett D, et al. Fortification of Human Milk for Preterm Infants: Update and Recommendations of the European Milk Bank Association (EMBA) Working Group on Human Milk
Fortification.
Front Pediatr. 2019;7:76.
WHO recommendations for care of the preterm or low birth weight infant. Geneva: World Health Organization; 2022.
12. Human Milk Fortification
● HMF (Human Milk Fortifier) may be used only when the infant reaches a
feed of 100 mL/kg/day
○ One sachet (1 g) of HMF may be used for 20 or 25 mL of expressed
or donor pasteurized human milk, depending on the product
guideline
○ The calorie requirement of a preterm infant is usually met with the
addition of HMF, which provides about 4 g/kg/day of protein and
3.5–4 g/kg/day of fats
Kumar RK, Singhal A, Vaidya U, Banerjee S, Anwar F, Rao S. Optimizing Nutrition in Preterm Low Birth Weight Infants—Consensus Summary. Front Nutr 2017;4
Thoene MK, Anderson-Berry AL. A review of Best Evidenced-based Enteral and Parenteral Nutrition Support Practices for Preterm Infants Born <1,500 Grams. Pediatric Medicine. 2018 Oct 23];1(0).
13. Formula Composition (per 100 mL)
Standard
Formula
Standard
Preterm
Formula
Amino Acid
Formula
HMF
(per 4 sachet)
Energy (kcal) 67 81 67 14
Protein (g) 1.45 2.3 1.8 1.1
Calcium (mg) 35 99 65.6 90 (42)*
Phosphorus (mg) 29 54 47.1 50 (23)*
Magnesium (mg) 5.2 8.0 7.0 1
Vitamin D (ug) 1.0 2 1.2 3.75
Zinc (mg) 0.5 1.6 0.73 0.72
*Premature human milk (3rd week)
14. Types of Human Milk Fortifier (HMF)
Multi-Nutrient Fortifiers
• Contain protein, energy,minerals, trace elements,vitamins, and electrolytes
Single-Nutrient Supplements
• Contain protein, lipids, or carbohydrates
Arslanoglu S, Boquien CY, King C, Lamireau D, Tonetto P, Barnett D, et al. Fortification of Human Milk for Preterm Infants: Update and Recommendations of the European Milk Bank Association (EMBA) Working Group on Human Milk
Fortification. Front Pediatr. 2019 Mar 22;7:76.
There are a number of products available for fortifying human milk for preterm babies
which differ by the origin of milk used (bovine, human or donkey), and by nutrient
composition (multi-nutrient fortifiers or supplements of protein, lipids, carbohydrates)
15. The Fortification Methods
Arslanoglu S, Boquien CY, King C, Lamireau D, Tonetto P, Barnett D, et al. Fortification of Human Milk for Preterm Infants: Update and Recommendations of the European Milk Bank Association (EMBA) Working Group on Human Milk
Fortification. Front Pediatr. 2019 Mar 22;7:76.
Standard (STD) Fortification
• A fixed amount of fortifier is added to a fixed volume of HM according to the
manufacturers’ instructions
• Fortification method currently in use in most of the neonatal units
Individualized HM Fortification Methods
• Adjustable (ADJ) Fortification
• Protein adequacy is monitored by BUN twice weekly, cut-off levels of BUN are 10-16 mg/dl*
• If the level is < 10 mg/dl extra protein is added to the STD fortification
• Targeted Fortification
• Macronutrient concentrations in HM are analyzed and based on the results milk is
supplemented with extra protein and/or fat
16. ● 18 small trials totalling 1456 preterm infants ➔ multi‐nutrient fortified human breast milk vs
unfortified breast milk
● Multi‐nutrient fortification of human milk increases in‐hospital rate of weight gain, body length
or head circumference among preterm infants
● The data do not suggest other benefits or harms and provide low‐certainty evidence
suggesting effects of multi‐nutrient fortification on the risk of necrotizing enterocolitis (NEC)
in preterm infants
● Authors’ conclusion: feeding preterm infants with multi-nutrient fortified human breast
milk compared with unfortified human breast milk is associated with modest increases in in-
hospital growth rates. Evidence is insufficient to show whether multi-nutrient fortification has
any effect on long term growth or neurodevelopment
Brown JV, Lin L, Embleton ND, Harding JE, McGuire W. Multi-nutrient fortification of human milk for preterm infants. Cochrane Database Syst Rev. 2020 Jun 3;6(6):CD000343.
17. Controlled, multicenter, double-blind study, a sample
of preterm infants ≤32 weeks or ≤1500g were
randomized to receive nHMF (n=77) or cHMF (n=76)
for a minimum of 21 days
Weight gain rate between study days 1 and 21
(g/kg/day)
18.3
16.8
16
16.5
17
17.5
18
18.5
nHMF cHMF
The
difference: 1.5
g/kg/day
nHMF: new powdered HM fortifier
cHMF: control HM fortifier
A new human milk fortifier containing partially
hydrolyzed
protein, fat, and carbohydrate provides a higher
protein : energy ratio → improves weight gain and
reduces postnatal growth restriction compared to
the current fortifier
Rigo J, Hascoët JM, Billeaud C, Picaud JC, Mosca F, Rubio A, et al. Growth and Nutritional Biomarkers of Preterm Infants Fed a New Powdered Human Milk Fortifier: A Randomized Trial. J Pediatr Gastroenterol Nutr. 2017 Oct;65(4):e83-e93.
18. HMF Composition
HMF - A
(per sachet 1 g) +
Breastmilk
HMF - B
(Per Sachet 0.71 g) +
Breastmilk
HMF - C
(Per 1 g)
Energy 4.35 kcal 3.5 kcal Not mentioned
Protein 0.36 g 0.28 g 0.27 g
Omega 3 4.17 mg Not mentioned Not mentioned
Omega 6 9.58 mg Not mentioned Not mentioned
DHA 1.57 mg Not mentioned Not mentioned
ARA 0.12 mg Not mentioned Not mentioned
Iron 0.44 mg 0.36 mg 0.0972 mg
Nutritionalvalue informationon the labels of some HMF.
19. New Powdered Human Milk Fortifier
FSI1=fortification strength increase day 1; W40CA=week 40 corrected age; z scores calculated using Fenton preterm growth char t
*P=0.013 vs cHMF (by analysis of covariance, adjusting for value at D1, sex, and center); †P=0.007 vs day 1 (by t test); **P=0.003 vs cHMF (by analysis of covariance, adjusting for value at D1, sex, and center)
Mean±SD weight-for-age
• Weight for-age z score (at D21) was significantly higher in nHMF compared to cHMF (0.12 [95% CI: 0.03, 0.22])
• Head circumference-for-age z scores (at W40CA)were significantly higher in nHMF compared to cHMF
(0.41 [95% CI: 0.14,0.68])
Mean±SD head circumference-for-age
nHMF = new powdered HM fortifier
cHMF = controlHM fortifier
Rigo J, Hascoët JM, Billeaud C, Picaud JC, Mosca F, Rubio A, et al. Growth and Nutritional Biomarkers of Preterm Infants Fed a New Powdered Human Milk Fortifier: A Randomized Trial. J Pediatr Gastroenterol Nutr. 2017 Oct;65(4):e83-e93.
20. Fortification of Feeding
● If maternal or donor human milk is not utilized or sufficient to meet required
feeding volumes → formula feedings can be initiated
● It is important to monitor the growth velocity of the infant, along with
monitoring for osteopenia of prematurity
Kumar RK, Singhal A, Vaidya U, Banerjee S, Anwar F, Rao S. Optimizing Nutrition in Preterm Low Birth Weight Infants—Consensus Summary. Front Nutr 2017;4
Thoene MK, Anderson-Berry AL. A review of Best Evidenced-based Enteral and Parenteral Nutrition Support Practices for Preterm Infants Born <1,500 Grams. Pediatric Medicine. 2018 Oct 23];1(0).
21. Preterm Formula Composition
ESPGHAN 2010
Recommendation
Unit Preterm
Formula A
Preterm
Formula B
Preterm
Formula C
Preterm
Formula D
Energy 110 – 135 kcal/kg/day Kcal/100 ml 83 80 83 74
Protein Body weight 1 -1.8 kg =
3.2 – 3.6 g/100 kcal
g/100 kcal 3.4 3.3 3.4 2.5
Omega 6 /
LA
350 – 1400 mg/100 kcal mg/100 kcal 889.7 740 698 601.2
Omega 3 /
ALA
> 50 mg/100 kcal mg/100 kcal 65.1 74 56 64.5
DHA 11 – 27 mg/100 kcal mg/100 kcal 19.8 17 20 8.25
AA 16 – 39 mg/100 kcal mg/100 kcal 20.8 34 21 18.8
Iron 1.8 – 2.7 mg/100 kcal mg/100 kcal 2.2 1.8 1.8 1.4
Osmolarity mOsm/L 317 320 374.5 N/A
Agostoni C,Buonocore G, Carnielli VP,De Curtis M, Darmaun D,Decsi T,et al. Enteralnutrient supply forpreterminfants:commentary fromthe EuropeanSociety of Paediatric Gastroenterology,Hepatology and
Nutrition Committee on Nutrition.J Pediatr Gastroenterol Nutr.2010Jan;50(1):85-91.
Nutritionalvalue informationon the labels of some premature formula.
22. Anthropometry
Anthropometry
Parameter
Should be Measure Until
Weight 24 month
Length 42 month
Head circumference 18 month
INTERGROWTH-21st. International Fetal and Newborn Growth Standards for the 21st Century: Anthropometry handbook. The Internation al Fetal and Newborn Growth Consortium; 2012.
25. 0 = does not apply; + to +++ reflects relative importance; +/− = of dubious value. w = weeks; m = months; y = years;
CVS = cardiovascular system; UR = unreliable. *prior to school entry; †1-2 years after starting school; ‡growth 12–14
years includes normal pubertal development; §overweight/obesity an ongoing issue; ¶ongoing life learning; ^relevant to
early presentation of autism spectrum disorder. Shaded areas represent a suggested minimal checklist for busy clinicians.
High Risk Children Follow Up
Doyle LW, Anderson PJ, Battin M, Bowen JR, Brown N, Callanan C, et al.
Long term follow up of high risk children: who, why and how? BMC Pediatr. 2014 Dec;14(1):279.
High-risk children who are
destined to have higher than
expected rates of health or
developmental problems
→ need more structured &
specialised follow-up
programs
26. 0 = does not apply; + to +++ reflects relative importance; +/− = of dubious value. w = weeks; m = months; y = years; CVS
= cardiovascular system; UR = unreliable. *prior to school entry; †1-2 years after starting school; ‡growth 12–14 years
includes normal pubertal development; §overweight/obesity an ongoing issue; ¶ongoing life learning; ^relevant to early
presentation of autism spectrum disorder. Shaded areas represent a suggested minimal checklist for busy clinicians.
Doyle LW, Anderson PJ, Battin M, Bowen JR, Brown N, Callanan C, et al.
Long term follow up of high risk children: who, why and how? BMC Pediatr. 2014 Dec;14(1):279.
High Risk Children Follow Up (cont)
27. Take Home Message
Optimization of the nutritional care for the preterm infants has a key role in
improving neurodevelopmental outcomes and has become a priority.
Fortification of human milk is necessary to prevent EUGR which is associated with
poor neurocognitive outcome and to avoid specific nutrient deficiencies.