Mineral supplementation for very preterm infants fed fortified human milk.

2024-04-08
Journal of pediatric gastroenterology and nutrition 78(6)
- Marie Bendix Simonsen
- Susanne Soendergaard Kappel
- Lise Aunsholt
- Sören Möller
- Per Torp Sangild
- Gitte Zachariassen

PubMed: 38587119
DOI: 10.1002/jpn3.12190

Study Design

Type: Randomized Controlled Trial (RCT)
Population: very preterm infants
Methods: Randomised controlled trial comparing fortification with bovine colostrum (BC) versus conventional fortifier (CF); blood calcium, phosphate, and haemoglobin determined before and up to 3 weeks after start of fortification
Duration: up to 3 weeks after the start of fortification
Funding: Unclear

Objectives

The safety and feasibility of human milk fortification with bovine colostrum (BC) were investigated in very preterm infants (FortiColos trial, NCT03537365). The BC product contained lower calcium, phosphate, and iron levels compared to the conventional fortifier (CF). We tested whether fortification with BC plus extra phosphate was sufficient to support the infants' mineral status assessed by blood biochemistry.

Methods

In a randomised controlled trial (FortiColos, NCT03537365), mineral status was compared after fortification with BC versus CF. Blood calcium, phosphate, and haemoglobin were determined before and up to 3 weeks after the start of fortification (at the mean age of 8-9 days). The maximum supplemental doses of calcium, phosphate, and iron given were retrieved from patient medical records. Results were adjusted for gestational age, birth weight, and enteral nutrition with the mother's own milk and/or donor human milk.

Results

Blood values of calcium, phosphate, and haemoglobin were similar between groups. Infants in both groups required supplementation with calcium and phosphate, but infants fed BC required higher maximum doses of phosphate and calcium (p < 0.05) to maintain acceptable blood values. Regardless of fortification groups, the most immature (<29 weeks of gestation) and small for gestational age infants showed a higher risk for requiring additional phosphate (odds ratio p < 0.001; OR: 2.14, p = 0.07, respectively).

Conclusions

The use of BC as a fortifier for human milk requires additional phosphate and calcium relative to a CF. Regardless of the fortification product, the most immature and small infants require additional mineral supplementation.

Research Insights

Bovine Colostrum→Increased Hemoglobin Levels
Blood values of calcium, phosphate, and haemoglobin were similar between groups.
Effect
Neutral
Effect size
Small
Dose
as a fortifier (dose not specified)
Bovine Colostrum→Maintained Blood Calcium Level
Blood values of calcium, phosphate, and haemoglobin were similar between groups.
Effect
Neutral
Effect size
Small
Dose
as a fortifier (dose not specified)
Bovine Colostrum→Maintained Blood Phosphate Level
Blood values of calcium, phosphate, and haemoglobin were similar between groups.
Effect
Neutral
Effect size
Small
Dose
as a fortifier (dose not specified)
Bovine Colostrum→Reduced Calcium Supplementation Need
infants fed BC required higher maximum doses of phosphate and calcium (p < 0.05) to maintain acceptable blood values.
Effect
Harmful
Effect size
Moderate
Dose
as a fortifier (dose not specified)
Bovine Colostrum→Reduced Need for Additional Phosphate Supplementation
infants fed BC required higher maximum doses of phosphate and calcium (p < 0.05) to maintain acceptable blood values.
Effect
Harmful
Effect size
Moderate
Dose
as a fortifier (dose not specified)