To compare the efficacy of fortification of expressed breast milk with
medium chain triglycerides and coconut oil on the physical growth of very low
birth weight babies
Joshi S.1,
Jain
N.2
1Dr. Swati Joshi, Senior
Resident, 2Dr. Nilesh Jain, Associate Professor; both authors are
attached with Department of Pediatrics, MGM Medical College, Indore, MP, India.
Corresponding
Author: Dr. Nilesh Jain, Associate Professor,
Department of Pediatrics, MGM Medical College, Indore, MP, India, Email: nileshkalashdhar@gmail.com
Abstract
Background: The
most important factor leading to growth failure in VLBW babies is inadequate
nutrition. Though, higher amounts of protein, sodium, chloride, and magnesium
are available in preterm human milk than those found in term milk, these levels
still remain below recommendations. To compensate these requirements, human
milk for preterm infants is routinely fortified to increase energy, protein and
mineral intake. In the past, very few studies have been done to find out the
efficacy of medium chain triglycerides and coconut oil for fortification of
human milk. Since, a major chunk of LBW babies exists in our country, this
study is undertaken.
Objectives: To
study and compare the physical growth (weight, length and head circumference) over
a period of two months in each study group. Design: Prospective cohort
study. Setting: The study was
conducted from April, 2015 to August, 2016 at Department of Pediatrics, MY
hospital and CNBC, Indore. Participants:
225 VLBW babies (<1.5 kg) admitted in SCNU and postnatal wards.
Intervention: The
babies were assigned to group 1, 2 and 3 in serial order. Sample size in each
group was 75.
Group1-
Given expressed breast milk with lactodex-HMF
Group2- Given expressed breast milk
with lactodex-HMF and MCT (Simyl MCT oil)
Group3-Given expressed breast milk
with lactodex-HMF and coconut oil (Parachute-100% edible oil)
Physical growth was monitored every
week for 2 months.
Results:
Significant physical growth (weight,
length and head circumference) was noticed in each of the study groups over 2
months (p value<0.05).There was no statistically significant difference in
the physical growth between the groups (p>0.05). Conclusion: There is no advantage of MCT or coconut oil
in addition to Lactodex- HMF on the physical growth of VLBW babies.
Keywords: Growth, Nutrition, Birth weight, Preterm, Fortifier
Author Corrected: 7th September 2018 Accepted for Publication: 13th September 2018
Introduction
Birth weight is the single most
important marker of adverse perinatal and neonatal outcome. Over 80% of all
neonatal deaths, in both the developed and developing countries occur among LBW
babies. Extra uterine growth restriction is a major clinical problem in very
low birth weight infants[1]. Growth failure is a result of the complex
interaction of many factors, including morbidities that affect nutrient
requirements, central nervous system damage, difficulty in suck and swallow
coordination, endocrine abnormalities but the most important factor leading to
growth failure is inadequate nutrition[2]. Following birth, term infants
rapidly adapt from a relatively constant intrauterine supply of nutrients to
intermittent milk feeding but preterm infants are at increased risk for
potential nutritional compromise due to limited nutrient reserves, immature
metabolic pathways and increased nutrient demands [3].
Early inadequate nutrition exerts
an adverse influence on long term developmental outcome. Malnutrition at this
vulnerable period of brain development results in a decreased number of brain
cells and deficits in learning, behavior, memory and poor long term growth [4].
The exclusive feeding of
unfortified human milk in premature infants is associated with poorer rates of
growth and nutritional deficits during and beyond the period of hospitalization
[5-7] and therefore human milk for preterm infants is routinely fortified to
increase energy, protein and mineral intake. Feeding preterm infants with
expressed breast milk fortified with human milk fortifier is associated with
weight gain, linear and head growth.
Fat in human milk supplies a major
proportion of caloric content. The ability of very low birth weight infants to
absorb fat is poor due to immaturity of liver and decreased bile salt synthesis
[8]. Medium chain triglycerides passively diffuse from the gastrointestinal
tract to the portal system without requirement for modification like long chain
fatty acids. Medium chain triglycerides can thus improve fat absorption in very
low birth weight infants [9-12]. Medium chain triglycerides have also shown to
increase weight gain and to enhance calcium absorption and nitrogen retention
but limited studies are available to prove it. As coconut oil is rich in medium
chain triglycerides, it can serve as a good substitute for MCT in a resource
limited developing country like India. So far, very few studies have been done
to find out the efficacy of medium chain triglycerides and coconut oil on
fortification of human milk. Studies done in past have small sample size and
conflicting results. This unique study aims to find out the efficacy of medium
chain triglycerides and coconut oil on fortification of human milk.
Methods
Place
of Study- 225 newborn babies with birth weight
less than 1.5 kg admitted in Special Care Newborn Unit and postnatal wards of
MY Hospital and Chacha Nehru Bal Chikitsalaya, Indore were included in the
study.
Type
of Study- Prospective cohort study
Sample
collection-225 preterm very low birth weight
babies (<1.5 Kg) were included in this study. These babies were
consecutively assigned to group 1, 2 and 3 in serial order. 1st baby
to group 1, 2nd to group 2, 3rd to group 3, 4th
again to group 1 and this was followed for whole sample of 225. Sample size was
75 in each group.
Inclusion
criteria- Preterm newborn babies with birth weight
less than 1.5 kg admitted in SCNU and postnatal wards of MY Hospital and CNBC,
Indore.
Exclusion
criteria- Babies with surgical problems,
congenital anomalies and those receiving formula feeds were excluded from the
study.
Methodology-
All details of babies including detailed
antenatal history, events during labor, baby’s details at birth, APGAR score (if
available), details of resuscitation, gestational age (as per New Ballard
score), birth weight, general condition of the baby at the time of admission
and indication of admission were
recorded on proforma designed for the study.
As soon as babies reached full
feeds(140ml/kg/day), babies in group 1 were given expressed breast milk
fortified with lactodex- human milk fortifier.2 g sachet of lactodex-HMF was
added to 50 ml of milk. Similarly in second group, in addition to lactodex- HMF,
medium chain triglycerides were added (Simyl MCT oil). Dose given was 1
ml/kg/day in divided doses and this dose was kept constant throughout the study
period of two months (Energy content of MCT oil- 8.3 kcal/g, 7.7kcal/ml). In
the third group, Parachute coconut oil (100% pure edible oil) was given in the
same dose(1 ml/kg/day) in addition to lactodex-HMF(Energy content of coconut
oil=8.6kcal/g)
Weight, length and head
circumference were recorded at the beginning of intervention. Weight was taken
on digital electronic scale after removing clothes and diaper. The weighing
scale was corrected for zero error before measurement. Serial measurement of
weight was done on the same weighing scale. Length was taken on an
infantometer. The neonate was placed supine with head held firmly in position
and keeping legs straight with toes pointing upward. Head circumference was
measured by an inch tape. The maximum circumference of the head from the
occipital protuberance to the supraorbital ridges on the forehead was recorded.
These babies were serially followed
for a period of 8 weeks and weight, length and head circumference was noted
every week.Cases which left against medical advice, did not come for follow up
and those certified during the study period were not included for final data
analysis. Final data was analyzed by different statistical tests.
The gain in physical growth
(weight, length and head circumference) in each study group was noted over the
study period of two months by applying repeated measures and one way ANOVA was
applied for comparison between groups.
Results
This prospective
cohort study was done on 225 very low birth weight babies to find out the
efficacy of fortification of expressed breast milk with medium chain
triglycerides and coconut oil. Human milk fortifier was common to all three
groups as it has proven role in the physical growth of very low birth weight
babies.
The results of
our study suggest that the gain in growth parameters (weight, length and head
circumference) was similar in all three intervention groups during the study
period of 2 months. There was no statistically significant difference in
weight, length and head circumference between the groups during the study
period of 2 months.
Very few studies
have been done in India previously on human milk fortification and they have
contradictory results. Our study suggests that there is no additional advantage
of medium chain triglycerides and coconut oil on the physical growth of very
low birth weight babies. In our study, medium chain triglycerides and coconut
oil were given at a constant minimum dose of 1 ml/kg/day to avoid adverse
effects of higher doses. No studies have been done with increasing doses of
medium chain triglycerides and coconut oil.
More studies are
needed in this regard so that a meta-analysis can be done to find out the role
of fat for fortification of human milk.
Table-1:
Description of Data
|
Treatment groups |
Week |
Mean |
Std. Deviation |
|
EBM+HMF |
W0 |
1.28327 |
0.148241 |
|
W1 |
1.32067 |
0.152264 |
|
|
W2 |
1.37308 |
0.166292 |
|
|
W3 |
1.43990 |
0.199351 |
|
|
W4 |
1.53433 |
0.230819 |
|
|
W5 |
1.62240 |
0.260223 |
|
|
W6 |
1.72721 |
0.303863 |
|
|
W7 |
1.83173 |
0.333052 |
|
|
W8 |
1.94288 |
0.360736 |
|
|
EBM+HMF+MCT |
W0 |
1.25133 |
0.140615 |
|
W1 |
1.28388 |
0.131257 |
|
|
W2 |
1.33684 |
0.140597 |
|
|
W3 |
1.40480 |
0.169131 |
|
|
W4 |
1.49827 |
0.204951 |
|
|
W5 |
1.59224 |
0.250269 |
|
|
W6 |
1.70673 |
0.294538 |
|
|
W7 |
1.82163 |
0.329304 |
|
|
W8 |
1.94551 |
0.355226 |
|
|
EBM+HMF+COCONUT |
W0 |
1.24500 |
0.158130 |
|
W1 |
1.28041 |
0.167652 |
|
|
W2 |
1.33806 |
0.190438 |
|
|
W3 |
1.40531 |
0.203325 |
|
|
W4 |
1.48663 |
0.236047 |
|
|
W5 |
1.57612 |
0.263208 |
|
|
W6 |
1.68337 |
0.316385 |
|
|
W7 |
1.79857 |
0.369472 |
|
|
W8 |
1.93245 |
0.412556 |
p value<0.05
There is a
significant increase in weight over 8 weeks in all groups (Test applied:
Repeated measures)
|
Treatment groups |
Week |
Mean |
Std. Deviation |
|
EBM+HMF |
L0 |
38.69231 |
1.973237 |
|
L1 |
38.93269 |
2.079378 |
|
|
L2 |
39.49038 |
2.234951 |
|
|
L3 |
40.09615 |
2.225165 |
|
|
L4 |
40.71154 |
2.333360 |
|
|
L5 |
40.96 |
2.840 |
|
|
L6 |
41.83654 |
2.228868 |
|
|
L7 |
42.36538 |
2.240701 |
|
|
L8 |
42.83654 |
2.188923 |
|
|
EBM+HMF+MCT |
L0 |
38.18367 |
1.453064 |
|
L1 |
38.40816 |
1.570143 |
|
|
L2 |
38.96939 |
1.668982 |
|
|
L3 |
39.59184 |
1.556818 |
|
|
L4 |
40.06122 |
1.553332 |
|
|
L5 |
40.40 |
2.280 |
|
|
L6 |
41.05102 |
2.112081 |
|
|
L7 |
41.70408 |
1.997181 |
|
|
L8 |
42.20408 |
1.970930 |
|
|
EBM+HMF+COCONUT |
L0 |
38.20833 |
2.023357 |
|
L1 |
38.50000 |
2.175786 |
|
|
L2 |
39.01042 |
2.300531 |
|
|
L3 |
39.69792 |
2.477000 |
|
|
L4 |
40.16667 |
2.478274 |
|
|
L5 |
40.49 |
3.081 |
|
|
L6 |
41.36458 |
2.575952 |
|
|
L7 |
41.65625 |
2.980711 |
|
|
L8 |
42.38542 |
2.484504 |
p value<0.05
There is a
significant increase in length over 8 weeks in all groups( Test applied:
Repeated measures)
|
Treatment groups |
Week |
Mean |
Std. Deviation |
|
EBM+HMF |
HC0 |
28.067 |
1.4315 |
|
HC1 |
28.308 |
1.5021 |
|
|
HC2 |
28.635 |
1.6243 |
|
|
HC3 |
29.096 |
1.7293 |
|
|
HC4 |
29.615 |
1.7196 |
|
|
HC5 |
30.269 |
2.3146 |
|
|
HC6 |
30.462 |
1.7901 |
|
|
HC7 |
31.048 |
1.7967 |
|
|
HC8 |
31.385 |
1.8514 |
|
|
EBM+HMF+MCT |
HC0 |
27.646 |
1.1107 |
|
HC1 |
27.896 |
1.1155 |
|
|
HC2 |
28.292 |
1.2583 |
|
|
HC3 |
28.792 |
1.3322 |
|
|
HC4 |
29.271 |
1.2798 |
|
|
HC5 |
29.896 |
2.1061 |
|
|
HC6 |
30.125 |
1.3349 |
|
|
HC7 |
30.583 |
1.3382 |
|
|
HC8 |
30.948 |
1.3218 |
|
|
EBM+HMF+COCONUT |
HC0 |
28.020 |
1.7046 |
|
HC1 |
28.265 |
1.8711 |
|
|
HC2 |
28.694 |
1.9943 |
|
|
HC3 |
29.010 |
2.0297 |
|
|
HC4 |
29.561 |
2.0632 |
|
|
HC5 |
30.296 |
2.5616 |
|
|
HC6 |
30.500 |
2.0842 |
|
|
HC7 |
30.949 |
2.1268 |
|
|
HC8 |
31.276 |
2.2245 |
Pvalue< 0.05
There is a significant increase in head circumference
over 8 weeks in all groups (Test applied: Repeated measures)
|
Between
groups and within groups |
F Value |
P value |
|
W0 |
0.971 |
0.381 |
|
W1 |
1.051 |
0.352 |
|
W2 |
0.775 |
0.462 |
|
W3 |
0.558 |
0.574 |
|
W4 |
0.642 |
0.528 |
|
W5 |
0.437 |
0.647 |
|
W6 |
0.285 |
0.753 |
|
W7 |
0.138 |
0.871 |
|
W8 |
0.024 |
0.976 |
p value>0.05
The weight gain
in all 3 groups is similar over 8 weeks. There is no significant difference in
weight gain.(Test applied: One way ANOVA)
|
Between groups and within groups |
F Value |
p Value |
|
L0 |
1.239 |
0.293 |
|
L1 |
1.037 |
0.357 |
|
L2 |
0.977 |
0.379 |
|
L3 |
0.798 |
0.452 |
|
L4 |
1.325 |
0.269 |
|
L5 |
0.613 |
0.543 |
|
L6 |
1.483 |
0.230 |
|
L7 |
1.345 |
0.264 |
|
L8 |
1.090 |
0.339 |
p
value >0.05.
There is no
significant difference in length over 8 weeks in all 3 groups (Test applied:
One way ANOVA)
|
Between groups and within groups |
F Value |
p Value |
|
HC0 |
1.401 |
0.250 |
|
HC1 |
1.155 |
0.318 |
|
HC2 |
0.849 |
0.430 |
|
HC3 |
0.450 |
0.638 |
|
HC4 |
0.646 |
0.526 |
|
HC5 |
0.477 |
0.621 |
|
HC6 |
0.696 |
0.500 |
|
HC7 |
0.953 |
0.388 |
|
HC8 |
.802 |
.450 |
p value>0.05
There is no significant
difference in head circumference over 8 weeks in all 3 groups.(Test applied:
One way ANOVA)
Figure-1
Line diagram showing increasing
mean weight over 8 weeks in all groups. Mean weight of group 2 is highest but
difference between groups is insignificant
Figure-2
Group 1 mean length is highest but
the difference between groups is insignificant
Figure-3
Group
1mean HC showed the highest growth over the 8 weeks.
Discussion
Fat provides the major source of energy for the
growing premature infants. Fat is a major determinant of growth, visual and
neural development and long term health [13-15]. Medium chain triglycerides are
absorbed faster and more completely by pancreatic lipase than Long chain
triglycerides. Medium chain triglycerides are prepared by the hydrolysis and fractionation
of coconut oil. Coconut oil can serve as a good substitute for medium chain
triglycerides in a resource limited developing country like India. So, this
study was undertaken.
Previous studies have reported gain in weight,
length and head circumference with currently available powdered fortifiers [16],
so in our study Lactodex- HMF was given to all the study groups.
In our study,
there was no significant difference in mean weight, mean length and mean head
circumference between the study groupsat the beginning of intervention. The
weight gain in each group was statistically significant for the study period of
two months and per week increase in weight was also statistically significant
for all the groups. Similarly, the change in length and head circumference was
also significant in each group during the study period of two months.
Group 2 received
medium chain triglycerides and Group 3 received coconut oil with lactodex- HMF
but their results were similar to group 1 which consisted of HMF alone. There
was no statistically significant difference in the study parameters between the
groups. The pattern of gain in weight, length and head circumference was
similar in all three study groups.
Deborah L. O’
Connor et.al. 2008 in their study found that low birth weight infants who
received human milk fortifier were heavier, longer and had large head circumference
as compared to controls that did not receive human milk fortifier[17].
Vaidya et.al. in
1992 in their study took 75 very low birth weight babies and divided them into
3 groups. In first group safflower oil and in second group coconut oil was used
for fortification and third group consisted of controls with no fortification.
The mean weight gain was highest and significantly higher than the controls in
the coconut oil group[18]. The weight gain was definitely superior in the
coconut oil group as compared to the safflower oil group but in this study
control group did not receive any fortification.
Cochrane
neonatal reviews on 182 infants from eight randomized trials on high versus low
medium chain triglyceride content of formula for promoting short term growth of
preterm infants reported no difference in growth parameters when high or low
MCT were used[19]. This metaanalysis was done on formula fed infants. Formula
fed infants were excluded in our study.An earlier study showed no effect on short
term growth of preterm infants fed fat supplemented human milk[20].
Our study also shows similar growth in all study groups over the study period
of 2 months.
Conclusion
There was a
significant physical growth (weight, length and head circumference) in all the
3 groups over the study period of two months (p<0.05, test applied-repeated
measures).One way ANOVA method was used to compare the weight, length and head
circumference between the groups. There was no statistically significant
difference in the study parameters between the groups (p>0.05)
There is no advantage of medium
chain triglycerides or coconut oil in addition to lactodex human milk fortifier
on the physical growth of very low birth weight babies.
Recommendation
1.Medium chain
triglycerides and coconut oil do not have an additional advantage on the
physical growth of very low birth weight babies(1-1.5kg).Hence; human milk
fortification can be recommended with HMF only.
2.This study has
been done with fixed doses of medium chain triglycerides and coconut oil
throughout the study period to avoid adverse effects associated with higher
doses. More studies can be done with increasing doses to find out the role of
fat for fortification of human milk.
3.Our study has
been done on a small sample size; more studies are needed so that a
meta-analysis can be done to find out the role of fat for fortification of
human milk.
References
1.
Clark RH, Thomas P, Peabody J. Extrauterine growth restriction remains
a serious problem in prematurely born neonates. Pediatrics. 2003
May;111(5 Pt 1):986-90. [pubmed]
2.
Embleton NE, Pang N, Cooke RJ. Postnatal malnutrition and growth
retardation: an inevitable consequence of current recommendations in
preterm infants? Pediatrics. 2001 Feb;107(2):270-3.[pubmed]
3.McGuire W, Henderson G, Fowlie PW. Feeding the preterm infant. BMJ. 2004 Nov 20;329(7476):1227-30. [pubmed]
4.
Grantham-McGregor S. A review of studies of the effect of severe
malnutrition on mental development. J Nutr. 1995 Aug;125(8
Suppl):2233S-2238S. doi:
10.1093/jn/125.suppl_8.2233S.doi:10.1093/jn/125.suppl_8.2233S. [pubmed]
5.
Cooper PA, Rothberg AD, Pettifor JM, et al. Growth and biochemical
response of premature infants fed pooled preterm milk or special
formula. J Pediatr Gastroenterol Nutr. 1984 Nov;3(5):749-54.[pubmed]
6. Davies DP. Adequacy of expressed breast milk for early growth of preterm infants. Arch Dis Child. 1977 Apr;52(4):296-301..[pubmed]
7.
Kashyap S, Schulze KF, Forsyth M, et al. Growth, nutrient retention,
and metabolic response of low-birth-weight infants fed supplemented and
un supplemented preterm human milk. Am J Clin Nutr. 1990
Aug;52(2):254-62.doi:10.1093/ajcn/52.2.254.[pubmed]
8. Andrews BF,
Lorch V: Improved fat and Ca absorption in L.B.W. infants fed a medium chain
triglyceride containing formula. Pediatric Research.1974; 8(4):378
9. Tantibhedhyangkul P, Hashim SA:
Clinical and physiologic aspects of medium-chain triglycerides: Alleviation of
steatorrhea in premature infants. Bull NY Acad. Med.1971 Jan;47(1):17-33
10. Tantibhedhyangkul P, Hashim SA:
Medium-chain triglyceride feeding in Premature infants: Effects on fat and
nitrogen absorption. Pediatrics.1975 Mar; 55(3):35
11. Andrews BF, Lorch V: Improved
fat and Ca absorption in L.B.W infants fed a medium chain triglyceride
containing formula. Pediatric Research.1974; 8(4):378
12.
Roy CC, Ste-Marie M, Chartrand L, et al. Correction of the
malabsorption of the preterm infant with a medium-chain triglyceride
formula. J Pediatr. 1975 Mar;86(3):446-50.[pubmed]
13.O’ Connor DL,
Hall R, Adamkin D, et al. Growth and
development in preterm infants fed long chain polyunsaturated fatty acids: a
prospective randomized control trial. Pediatrics.2001 Aug;108(2):359-71.[pubmed]
14. Fewtrell MS,
Abbott RA, Kennedy K, et al. Randomized double blind trial of long chain
polyunsaturated fatty acid supplementation with fish oil and borage oil in
preterm infants. J Pediatr. 2004 Apr; 144(4):471-9.[pubmed]
15.Collins CT,
Makrides M, Gibson RA et al. Pre and post term growth in preterm infants
supplemented with higher dose DHA: a randomised control trial. Br J Nutr. 2011
Jun;105(11):1635-43.doi:10.1017/S000711451000509X.[pubmed]
16.O’Connor DL,Khan
S et al.Growth and nutrient intakes of human milk fed preterm infants provided
with extra energy and nutrients after hospital discharge.Pediatrics.2008
Apr;121(4):766-76.doi:10.1542/peds.2007-0054.[pubmed]
17. Deborah L. O’ Connor, Sobia
Khan, Karen Weishuhn, Jennifer Vaughan et.al. Growth and Nutrient Intakes of
Human Milk- Fed Preterm Infants provided with extra energy and nutrients after
discharge. Pediatrics.2008 Apr;121(4);766-76.doi:10.1542/peds.2007-0054
18.
Vaidya UV, Hegde VM, Bhave SA, Pandit AN. Vegetable oil fortified feeds
in the nutrition of very low birthweight babies. Indian Pediatr. 1992
Dec;29(12):1519-27.[pubmed]
19.Klenoff
Brumberg HL, Genen LH et al. High versus low medium chain triglyceride content of
formula for promoting short term growth of preterm infants. Cochrane Database
Syst Rev.2003;(1):CD002777
20. Amissah EA,
Brown J et al. Fat supplementation of human milk for promoting growth in
preterm infants. Cochrane Database Syst Rev.2018 Jun 19;6:CD000341.doi:10.1002/14651858.CD000341.pub2.