Panacea Journal of Medical Sciences 2022;12(1):73–76

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Panacea Journal of Medical Sciences

Journal homepage: http://www.pjms.in/  

 

Original Research Article

Evaluation of serum Vitamin D3 level in Vitamin D3 supplemented 9 to 12 months
old children in a tertiary care hospital

Tanmay Mondal1, Pradip Saha2, Sudip Saha1,*
1Dept.of Paediatrics, Chittaranjan Seva Sadan Hospital, Kolkata, West Bengal, India
2Dept. of Cardiology, Institute of Post Graduate Medical Education and Research, Kolkata, West Bengal, India

 

 

A R T I C L E I N F O

Article history:
Received 04-04-2021
Accepted 16-08-2021
Available online 30-04-2022

Keywords:
Vitamin D3
Electrochemiluminescence
immunoassay
Vitamin D deficiency

A B S T R A C T

Introduction: Vitamin D deficiency has emerged as a significant public health problem throughout the
world. Even in the Indian context, it has been reported to be present in majority of children in spite
of wide availability of sunlight. Our objective was to evaluate Serum Vitamin D3 Level in Vitamin D3
Supplemented 9 to 12 Months Old Children in a Tertiary Care Hospital.
Materials and Methods: A cross sectional study was conducted in the patients aged 9 months to 12
months attending Out Patient Department and Ward of Tertiary care mother and child hospital, Department.
of Paediatrics between April, 2019 to March, 2020.Blood sample was collected and analysed by the
Electrochemiluminescence Immunoassay (ECLIA) with the help of HITACHI Elecsys Cobas E411 to
estimate 25-OH-D level after getting proper consent.
Result: The study done among 100 Vitamin D3 Supplemented 9 to 12 Months Old Children in a Tertiary
Care Hospital resulted standard error 0.0952 and standard deviation 0. 9522. The children who had regularly
taken vitamin D3 at 400IU/day since birth showed minimum vitamin D3 level at 22.34ng/ml and maximum
vitamin D3 level found is 98.18ng/ml with a mean value of 40.67ng/ml that is sufficient.
Conclusion: In our study we have found that if children are given vitamin D3 regularly since birth at
400IU/day the attain desired serum vitamin D3 level irrespective of the brand/preparation.

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1. Introduction

Vitamin D deficiency is a very common nutritional
deficiency 1 and also the most common undiagnosed
medical conditions in the world. Vitamin-D is a hormone
that is active throughout the whole body to regulate
calcium and bone metabolism. It also decreases the risk
of chronic diseases including auto immune diseases, some
malignancies, cardiovascular and infectious diseases. It has
been estimated that nearly 1 billion people worldwide have
vitamin D deficiency or insufficiency. 2 In India majority
of population lives in areas receiving ample sunlight
throughout the year, but still vitamin D deficiency is very

* Corresponding author.
E-mail address: sudipsaha1973@gmail.com (S. Saha).

common in all the age groups and both sexes across the
country. 3–5 The prevalence of vitamin D deficiency now is
50-90 % in the Indian subcontinent and is attributed to low
dietary calcium along with the skin colour and changing
lifestyle. 3 Vitamin D is deficient in breastfed infants at one
end and in older children dietary calcium deficiency at the
other end. Between these two extremes, it is likely that
vitamin D insufficiency and decreased calcium intake or
relatively high phytate intake combine to induce vitamin D
deficiency and rickets, which sometimes may be the most
frequent cause of rickets globally. 6 Vitamin D deficiency
is defined as serum level of 25(OH)D less than 20ng/dl.
It has been estimated the serum 25(OH)D level of 20ng/dl
meet the needs of at least 97.5% of entire population across

https://doi.org/10.18231/j.pjms.2022.014
2249-8176/© 2022 Innovative Publication, All rights reserved. 73



74 Mondal, Saha and Saha / Panacea Journal of Medical Sciences 2022;12(1):73–76

all age groups in developed countries. 7 Hence it has been
concluded by INSTITUTE OF MEDICINE (IOM) that
25(OH)D levels >20ng/dL indicates vitamin D sufficiency. 8

Serum 25(OH)D levels between 12-20ng/ml(30-50nmol/L)
as insufficient and <12ng/ml (<30nmol/L) as deficient. 9 The
best available indicators of vitamin D status is 25(OH)D
which is the major circulating form of vitamin D with
half-life of 2-3 weeks. The recommended vitamin D
intake is 400IU/day in infants less than 1 year and 600
IU/day in children more than 1 year of age. (10-12) Post
supplementation the level of vitamin D3 has not been
evaluated so far. So, there is immediate need to assess the
bio-availability and requirement of vitamin D3 in children
aged at 9 to 12 months.

2. Materials and Methods

It was a cross- sectional study done in the OPD and Ward of
a tertiary care hospital between April,2019 to March,2020.
The study was conducted among 100 children aged between
9 months to 12 months, who have received vitamin D3 400
IU/day.

2.1. Exclusion criteria

The patients who are critically sick & hemodynamically
unstable or with Known metabolic bone disease or
chronic disease known to be associated with bone
abnormalities, gut (inflammatory bowel disease, celiac
disease), chronic liver disease and metabolic and endocrine
diseases or on Concurrent medication which is likely
to interfere with vitamin D metabolism (Phenytoin,
Phenobarbitone, Carbamazepine, Isoniazid, Rifampicin)
and parents not giving consent. After obtaining detailed
informed consent, the children were undertaken for study.
A pre-designed proforma was filled which included a
detailed history, systemic examination, investigations. 4
ml of clotted blood was collected and analysed by the
Electrochemiluminescence Immunoassay (ECLIA) with the
help of HITACHI Elecsys Cobas E411 to estimate 25-OH-
D level. The data were entered into the Microsoft excel
enterprise 2007 spreadsheet. The analysis of the available
data was done by using IBM SPSS Statistics for Windows,
Version 22.0. Armonk, NY: IBM Corp. 2013.

3. Results and Analysis

100 total children taken for the study of which 47 were male
and 53 were Female.

The Table 1 shows that the study done among 100
Vitamin D3 Supplemented 9 to 12 Months Old Children
in a Tertiary Care Hospital resulted standard error 0.0952
and standard deviation 0.9522 The children who were
regularly given vitamin D3 at 400IU/day since birth showed
minimum vitamin D3 level at 22.34ng/ml and maximum
vitamin D3 level at 98.18ng/ml with a mean value of

40.67ng/ml.

The Table 2 shows that among 47 male children mean
vitamin D3 level is 41.29ng/ml where standard deviation
is 9.61 and mean standard error is 1.40. Among 53
girl children mean vitamin D3 level is 40.13ng/ml where
standard deviation is 14.08 and standard error is 1.93.
Test statistics showed P>0.05, therefore there is no gender
preponderance.

The Table 3 shows that the study done among 100
Vitamin D3 Supplemented 9 to 12 Months Old Children
showed mean values does not differ a lot among different
age groups.

Vitamin D deficiency is commonly being detected in
India as well as worldwide.Studies from various parts
of India and among all age groups from neonates to
adolescents aswell as pregnant and lactating mothers have
reported vitamin D deficiency. A study done by V.Jain at the
All India Institute of Medical Sciences, New Delhi, revealed
98 infants born at term with appropriate weight aged 2.5
to 3.5 months, revealed that vitamin D deficiency and
insufficiency was found to be high in breastfed infants. 10

Another study conducted by Harinarayanan CV & Joshi
SR. showed that Vitamin D deficiency is epidemic in
India despite of plenty of sunshine. 3 Wagner CL et al.
showed that Circulating 25-hydroxyvitamin D levels in
fully breastfed infants on oral vitamin D supplementation
showed mean value of 43.6ng/ml and 42.5ng/ml at the
age of 4 months and 7 months respectively. 11 In their
study as defined by circulating 25(OH) D levels <20
ng/mL, 24 infants out of the 33 infants (72.7%) had
evidence of deficiency at one month of age. The change
in values between 1 and 4 months and 1 and 7 months
was statistically significant (P ≤ .0001). As predicted, no
statistically significant differences were observed between
months 4 and 7 (P =.66). Repeated measures ANOVA
indicated overall significance (P < .0001). No toxicity was
detected in the infants based on serum calcium, phosphorus,
and creatinine levels, neither any adverse health effects were
seen with vitamin D supplementation. They concluded that
400IU per day of an oil emulsion vitamin D3 preparation
is effective in raising the infants’ levels to the desired
target of >30 ng/ml. Infant’s 25(OH)D levels consistently
and significantly increased to a plateau by three months of
therapy on the daily oil emulsion preparation dispensed as
400IU per day. Overall, the infant’s circulating 25(OH)D
levels increased 37% above baseline. It is not surprising that
the infants who are almost solely dependent on the mother
for their vitamin D have corresponding deficiency. Their
findings in that study support the recent recommendation of
starting vitamin D supplementation in all breastfed infants
within the first few days after delivery. The 400 IU/day
dose was adequate in helping the infant maintain adequate
vitamin D status during the six-month study period. This
result correlates with our study which has shown mean



Mondal, Saha and Saha / Panacea Journal of Medical Sciences 2022;12(1):73–76 75

Table 1: Descriptive Statistics of age and vitamin D3. N= 100
N Minimum Maximum Mean Std. Deviation

Statistic Statistic Statistic Statistic Std. Error Statistic
Age in months 100 9.0 12.0 10.320 .0952 .9522
Vitamin d3 level 100 22.34 98.18 40.6797 1.21489 12.14892
Valid N (listwise) 100

Table 2: Sex wise distribution of vitamin d3. N=100
Gender Number Vitamin d3 level (mean

value)
Std. Deviation Std. Error mean Test statistics

Male 47 41.2917 9.61888 1.40306 T=0.473 Df=98
P>0.05(0.638)Female 53 40.1370 14.08953 1.93535

Table 3: Distribution of vitamin d3 in the study according to age
Age grade Vit D level Mean N Std. Deviation Std. Error of

Mean
Range

9 months age 41.8786 22 10.16069 2.16627 42.44
10 months age 42.6797 36 11.31673 1.88612 59.48
11 months age 37.6037 30 14.14733 2.58294 75.84
12 months age 40.1717 12 12.41245 3.58317 38.13
Total 40.6797 100 12.14892 1.21489 75.84

value of 40.67. In our study 100 children were included;
among them 47 are boys and 53 girls who uninterruptedly
had taken D3 supplementation. In our study the children
who regularly took vitamin D3 at 400IU/day since birth
showed minimum vitamin D3 level at 22.34ng/ml and
maximum vitamin D3 level at 98.18ng/ml with a mean
value of 40.67ng/ml that is sufficient. In the recent past the
recommendation for vitamin D supplementation regarding
infants was 200 IU/daily, the dosage was calculated based
on the evidence that 200 IU/d allows to keep the level
of 25(OH) D on the level of 11ng/ml. 12 However, in
connection with recent knowledge of normal vitamin D
status, the recommendation was revised. The recommended
vitamin D intake is 400IU/day in infants less than 1 year and
600 IU/day in children more than 1 year of age. 7,13,14

4. Conclusion

Vitamin-D as a hormone is active throughout the whole
body to regulate calcium and bone metabolism. Various
studies at different times revealed poor Vitamin D status
irrespective of age, sex, and geography. Vitamin D
concentration in breast milk is low and inadequate for the
needs of the growing infant. 400 IU of vitamin D has
been shown to maintain serum 25(OH)D concentrations at
approximately around 50 nmol/L in breastfed infants. Thus,
for all new-borns, 400 IU of vitamin D supplementation is
recommended up to one year of age; it is also recommended,
that supplementation should be started in the first few days
of life.

In our study we have found that if children are given
vitamin D3 regularly since birth at 400IU/day they attain

desired serum vitamin D3 level irrespective of the brand
or preparation. It would have been better study if we
could have done a double blinded randomised control trial
between two groups of children, one group without vitamin
D3 Supplementation and another group with vitamin D3
Supplementation subject to ethical clearance.

5. Sources of Funding

No financial support was received for the work within this
manuscript.

6. Conflicts of Interest

No conflicts of interest.

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Author biography

Tanmay Mondal, Senior Resident

Pradip Saha, Assistant Professor

Sudip Saha, Associate Professor

Cite this article: Mondal T, Saha P, Saha S. Evaluation of serum
Vitamin D3 level in Vitamin D3 supplemented 9 to 12 months old
children in a tertiary care hospital. Panacea J Med Sci
2022;12(1):73-76.

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http://dx.doi.org/10.1210/jc.2011-0090
http://dx.doi.org/10.1002/jbmr.328