Growth outcomes of small for gestational age preterm infants before and after implementation of an exclusive human milk-based diet
Source: Journal of Perinatology
Source: Journal of Perinatology
Source: Breastfeeding Medicine
Source: Nutrients
Prolacta > Resources & Evidence
Source:
The American Journal of Clinical Nutrition
Author(s):
Ford SL, Lohmann P, Preidis GA, et al.
Source:
Journal of the Academy of Nutrition and Dietetics
Author(s):
Wojcik KY, Rechtman DJ, Lee ML, Montoya A, Medo ET
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Growth outcomes of small for gestational age preterm infants before and after implementation of an exclusive human milk-based diet
Topics(s): Growth Late-onset sepsis Necrotizing entercolitis (NEC)
Source:
Journal of Perinatology
Author(s):
Fleig L, Hagan J, Lee ML, Abrams SA, Hawthorne KM, Hair AB
Abstract
Objective
Small for gestational age (SGA) preterm infants (PT) are at greatest risk for growth failure. Our objective was to assess the impact of an exclusive human milk diet (HUM) on growth velocities and neonatal morbidities from birth to discharge in a SGA population.
Study design
Multicenter, retrospective cohort study, subgroup analysis of SGA PT comparing a cow’s milk diet (CMD) with HUM diet.
Results
At birth 420 PT were classified as SGA (197 CMD group, 223 HUM group). Demographics and anthropometric measurements were similar. HUM group PT showed improvement in length Z score at discharge (p = 0.024) and reduction in necrotizing enterocolitis (NEC) (p = 0.004).
Conclusion
SGA PT fed a HUM diet had significantly decreased incidence of NEC, surgical NEC, and late-onset sepsis. Due to concerns about growth in a HUM diet, it is reassuring SGA infants fed the HUM diet had similar growth to CMD diet with trends toward improvement
Preterm infants fed cow's milk-derived fortifier had adverse outcomes despite a base diet of only mother's own milk
Topics(s): Mortality Necrotizing entercolitis (NEC)
Source:
Breastfeeding Medicine
Author(s):
Lucas A, Boscardin J, Abrams SA
Abstract
Objective
An increasingly common practice is to feed preterm infants a base diet comprising only human milk (HM), usually fortified with a cow's milk (CM)-derived fortifier (CMDF). We evaluated the safety of CMDF in a diet of 100% mother's own milk (MOM) against a HM-derived fortifier (HMDF). To date, this has received little research attention.
Study Design
We reanalyzed a 12-center randomized trial, originally comparing exclusive HM feeding, including MOM, donor milk (DM), and HMDF, versus a CM exposed group fed MOM, preterm formula (PTF), and CMDF1. However, for the current study, we performed a subgroup analysis (n = 114) selecting only infants receiving 100% MOM base diet plus fortification, and fed no DM or PTF. This allowed for an isolated comparison of fortifier type: CMDF versus HMDF to evaluate the primary outcomes: necrotizing enterocolitis (NEC) and a severe morbidity index of NEC surgery or death; and several secondary outcomes.
Results
CMDF and HMDF groups had similar baseline characteristics. CMDF was associated with higher risk of NEC; relative risk (RR) 4.2 (p = 0.038), NEC surgery or death (RR 5.1, p = 0.014); and reduced head circumference gain (p = 0.04).
Conclusions
In neonates fed, as currently recommended with a MOM-based diet, the safety of CMDF when compared to HMDF has been little researched. We conclude that available evidence points to an increase in adverse outcomes with CMDF, including NEC and severe morbidity comprising NEC surgery or death.
Continuous feedings of fortified human milk lead to nutrient losses of fat, calcium and phosphorous
Topics(s): Feeding protocols Parenteral nutrition (PN/TPN) use
Source:
Nutrients
Author(s):
Rogers SP, Hicks PD, Hamzo M, Veit LE, Abrams SA
Abstract
Objective
Substantial losses of nutrients may occur during tube (gavage) feeding of fortified human milk. Our objective was to compare the losses of key macronutrients and minerals based on method of fortification and gavage feeding method.
Methods
We used clinically available gavage feeding systems and measured pre- and post-feeding (end-point) nutrient content of calcium (Ca), phosphorus (Phos), protein, and fat. Comparisons were made between continuous, gravity bolus, and 30-minute infusion pump feeding systems, as well as human milk fortified with donor human milk-based and bovine milk-based human milk fortifier using an in vitro model.
Results
Feeding method was significantly associated with fat and Ca losses, with increased losses in continuous feeds. Fat losses in continuous feeds were substantial, with 40 ± 3 % of initial fat lost during the feeding process. After correction for feeding method, human milk fortified with donor milk-based fortifier was associated with significantly less loss of Ca (8 ± 4% vs. 28 ± 4%, p< 0.001), Phos (3 ± 4% vs. 24 ± 4%, p < 0.001), and fat (17 ± 2% vs. 25 ± 2%, p = 0.001) than human milk fortified with a bovine milk-based fortifier (Mean ± SEM).
Improved feeding tolerance and growth are linked to increased gut microbial community diversity in very-low-birth-weight infants fed mother's own milk compared with donor breast milk
Topics(s): Feeding intolerance Microbiome/dysbiosis Necrotizing entercolitis (NEC)
Source:
The American Journal of Clinical Nutrition
Author(s):
Ford SL, Lohmann P, Preidis GA, et al.
Abstract
Background
Mother's own milk (MOM) is protective against gut microbiota alterations associated with necrotizing enterocolitis (NEC) and feeding intolerance among preterm infants. It is unclear whether this benefit is preserved with donor milk (DM) feeding.
Objective
We aimed to compare microbiota development, growth, and feeding tolerance in very-low-birth-weight (VLBW) infants fed an exclusively human milk diet of primarily MOM or DM.
Methods
One hundred and twenty-five VLBW infants born at Texas Children's Hospital were enrolled and grouped into cohorts based on percentage of MOM and DM in enteral feeds. Feeds were fortified with DM-derived fortifier per unit protocol. Weekly stool samples were collected for 6 wk for microbiota analysis [16S ribosomal RNA (rRNA) sequencing]. A research nurse obtained weekly anthropometrics. Clinical outcomes were compared via Wilcoxon's rank-sum test and Fisher's exact test, as well as multivariate analysis.
Results
The DM cohort (n = 43) received on average 14% mothers’ milk compared with 91% for the MOM cohort (n = 74). Diversity of gut microbiota across all time points (n = 546) combined was increased in MOM infants (P < 0.001). By 4 and 6 wk of life, microbiota in MOM infants contained increased abundance of Bifidobacterium (P = 0.02) and Bacteroides (P = 0.04), whereas DM-fed infants had increased abundance of Staphylococcus (P = 0.02). MOM-fed infants experienced a 60% reduction in feeding intolerance (P = 0.03 by multivariate analysis) compared with DM-fed infants. MOM-fed infants had greater weight gain than DM-fed infants.
Conclusions
Compared with DM-fed infants, MOM-fed infants have increased gut microbial community diversity at the phylum and genus levels by 4 and 6 wk of life, as well as better feeding tolerance. MOM-fed infants had superior growth. The incidence of NEC and other gastrointestinal morbidity is low among VLBW infants fed an exclusively human milk diet including DM-derived fortifier.
Macronutrient analysis of a nationwide sample of donor breast milk
Topics(s): Microbiome/dysbiosis Probiotics
Source:
Journal of the Academy of Nutrition and Dietetics
Author(s):
Wojcik KY, Rechtman DJ, Lee ML, Montoya A, Medo ET
Abstract
Objective:
Banked donor milk may be a reasonable substitute for mother's milk for human infants. No data on the macronutrient composition of banked donor milk have been reported. This study determined the composition of donated milk from a large number of banked donor milk samples and compared it to the reported values for macronutrients in mature breast milk.
Methods:
During a 9-month sampling period (May 2006 through February 2007) from a nationwide milk bank network, 415 sequential samples from 273 unique donors were analyzed for fat, protein, and lactose content, as well as energy density. Descriptive statistics were computed, including mean, standard deviation, coefficient of variation, median, and range. Percentiles were determined from the empirical distribution of the data.
Results:
A ninety-five percent confidence interval was computed using standard, large sample (Gaussian) methods. Banked donor milk mean values (in weight/volume) were found to be 1.16%±0.25% for protein, 3.22%±1.00% for fat, 7.80%±0.88% for lactose, and mean total energy was 65±11 kcal/dL.
Conclusion:
Banked donor milk macronutrient content was found to differ from the values reported in the literature for mature human milk. Unformulated banked donor milk alone, similar to mother's milk alone, does not have sufficient macronutrient content or energy density to sustain a very-low-birth-weight preterm infant. Fortification could make up for these shortcomings, perhaps making formulated banked donor milk a better choice for preterm infants than bovine-based formulas when mother's milk is unavailable.
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