Invest Clin 62(2): 159 - 168, 2021 https://doi.org/10.22209/IC.v62n2a06
Corresponding author: Jiacong Xuan. Department of Pharmacy, Tongde Hospital of Zhejiang Province, Xihu Dis-
trict, Hangzhou City, Zhejiang Province, China. Email: wang.medical23@gmail.com
Effect of vitamin D drops combined with
conventional western medicine on children
with Type 1 diabetes mellitus.
Jinjun Xue
1
and Jiacong Xuan
2
1
Department of Paediatrics, Tongde Hospital of Zhejiang Province, Hangzhou City,
Zhejiang Province, China.
2
Department of Pharmacy, Tongde Hospital of Zhejiang Province, Xihu District,
Hangzhou City, Zhejiang Province, China.
Key words: vitamin D; Type 1 diabetes; helper T-Cells; children.
Abstract. We investigated the therapeutic effect of vitamin D (VitD) drops,
combined with conventional western medicine (insulin), on children with type
1 diabetes mellitus (T1DM). Eighty-four children with T1DM were divided into
a routine group and an observation group (42 cases in each group). The routine
group was treated with insulin; while the observation group was treated with
insulin plus VitD drops. The serum levels of 25-hydroxyvitamin D3 (25(OH)D3)
were compared between the two groups before and after treatment. The daily
dosage of insulin, time needed for glucose control, two-hour postprandial blood
sugar and frequency of episodes of hypoglycemia, were recorded. Flow cytometry
was used to detect and compare interferon gamma (INF-γ), interleukin 4 (IL4),
and INF-γ/IL-4 expression in CD4
+
T cells of peripheral blood before and after
treatment. Complication rates and readmission rates were documented dur-
ing the six-month follow-ups. VitD drops significantly improved serum vitamin
D levels in the routine group (P<0.05). Compared with this group, the daily
doses of insulin were lower, the time of blood sugar reaching normal ranges was
shorter and the frequency of hypoglycemia was lower in the observation group
(P<0.05). There were significant differences in the 2-hour postprandial blood
sugar levels, and flow cytometry results between the two groups (P<0.05). VitD
drops combined with insulin are beneficial for blood glucose control of children
with T1DM, effectively reducing the insulin utilization rate, reducing the fre-
quency of hypoglycemia, and helping to regulate the Th1/Th2 balance disorder.
Complementary treatment with this vitamin is safe and reliable, and can reduce
the incidence of complications and readmission rates.
160 Xue and Xuan
Investigación Clínica 62(2): 2021
Efecto de gotas de vitamina D, combinadas con la medicina
occidental convencional, en niños con diabetes mellitus Tipo 1.
Invest Clin 2021; 62 (2): 159-168
Palabras clave: vitamina D; diabetes tipo 1; células T auxiliares; niños.
Resumen. Investigamos el efecto terapéutico de gotas de vitamina D
(VitD), combinadas con la insulina de la medicina occidental convencional, en
niños con diabetes mellitus tipo 1 (TDM1). Se clasificaron 84 niños con TDM1
en un grupo de rutina y un grupo de observación (42 casos en cada grupo). El
grupo de rutina fue tratado con insulina; mientras que el grupo de observación
fue tratado con insulina más gotas de VitD. Se compararon los niveles séricos
de 25-hidroxivitamina D3 (25 (OH) D3) entre los dos grupos antes y después
del tratamiento. Se registraron la dosis diaria de insulina, el tiempo en que se
alcanzó el control de la glicemia dentro de rangos normales, la frecuencia de
episodios de hipoglicemia y la glicemia postprandial a las dos horas. Se utilizó
citometría de flujo para detectar y comparar la expresión de interferón gam-
ma (INF-γ), interleucina 4 (IL4) e INF-γ / IL-4 en células T CD4 + de sangre
periférica antes y después del tratamiento. Las tasas de complicaciones y las
tasas de reingreso se documentaron durante el seguimiento de seis meses. Las
gotas de VitD mejoraron significativamente los niveles de vitamina D en suero
en comparación con el otro grupo (P<0,05). En comparación con el grupo de
rutina, la dosis diaria de insulina fue menor, el tiempo en que la glucosa en
sangre alcanzó un rango normal fue más corto y la frecuencia de episodios de
hipoglicemia fue menor en el grupo de observación (P<0,05). Hubo diferencias
significativas en el nivel de glicemia posprandial a las dos horas y los resultados
de la citometría de flujo entre los grupos (P<0,05). Las gotas de VitD combina-
das con insulina son beneficiosas para el control de la glucosa en sangre de los
niños con DM1, reducen eficazmente la tasa de utilización de insulina, reducen
la frecuencia de episodios de hipoglicemia y ayudan a regular el trastorno del
equilibrio Th1 / Th2. El tratamiento combinado con esta vitamina es seguro,
confiable y puede reducir la incidencia de complicaciones así como la tasa de
reingreso.
Received: 16-02-2021 Accepted: 04-04-2021
INTRODUCTION
Type 1 diabetes mellitus (T1DM) is a
kind of autoimmune disease caused by the
pancreas islet B cell injury, and T1DM cases
take up nearly 5% to 10% of the prevalence
of DM. Currently, the increase rat of T1DM
prevalence has reached about 3.9% in the
world, mainly affecting the teenagers aged
between 10 and 14 years old, and bring-
ing about the severe burden on the mental
health of children and the family (1). So
far, insulin replacement therapy is the ma-
jor method for T1DM treatment, with exact
efficacy, yet still fails to control the blood
glucose for some children, or even results
in the occurrence of hypoglycemia (2). Evi-
dence from the clinical practice (3) suggests
Vit D drops combined with insulin in Type 1 diabetes 161
Vol. 62(2): 159 - 168, 2021
that vitamin D (VitD) deficiency is closely
correlated with T1DM and autoimmune dis-
ease, and VitD is found to regulate the in-
nate immune response and antigen present-
ing cells (APCs). Furthermore, existing data
have suggested that regular administration
of VitD is in a positive association with the
decreased prevalence of T1DM in children,
while there remains no adequate evidence
that suggests the efficacy of co-administra-
tion of VitD and insulin on the T1DM pe-
diatric patients. Thus, in this study, we put
forward the strategy of co-administration of
VitD and insulin in treatment of pediatric
T1DM, and compared the resulting efficacy,
immune regulation and safety evaluation
with the regular strategy, and the results are
reported as follows.
SUBJECTS AND METHODS
General data. A total of 84 children
with T1DM, who were admitted to our hos-
pital between January 2013 and April 2020,
were recruited into this study and divided
into the regular group and the observation
group, using a random digit table, with
42 patients in each group. In the regular
group, there were 16 boys and 26 girls,
aged between 1 and 12 years-old with an
average age of 5.90±1.12 years, and their
average body mass index (BMI) (5) was
21.04±2.05 kg/m
2
; 23 patients presented
positive responses to the antibody test, in-
cluding eight patients to the GAD65Ab, five
positive to the anti-islet cell antibody (ICA),
four positive to the anti-insulin antibody
(IAA), three positive to IA-2Ab and three
positive to GAD65Ab + IAA; 31 patients
had complications of diabetic ketosis; as for
the clinical manifestations, 22 patients had
polydipsia, polyuria, polyphagia and weight
loss, ten had fever, eight had vomiting, and
16 had abdominal pain. In the observation
group, there were 18 boys and 24 girls, aged
between 1 and 12 years-old with an average
age of 5.78±1.10 years. Their average BMI
(5) was 21.11±2.04 kg/m
2
; 24 patients
presented positive responses to the anti-
body test, including none patients to the
GAD65Ab, six positive to the anti-islet cell
antibody (ICA), three positive to the anti-
insulin antibody (IAA), three positive to IA-
2Ab and three positive to GAD65Ab + IAA;
29 patients had complications of diabetic
ketosis; as for the clinical manifestations,
24 patients had polydipsia, polyuria, poly-
phagia and weight loss, 11 had fever, 7 had
vomiting, and 14 had abdominal pain. Com-
parison of the general data between two
groups showed no significant difference (all
P > 0.05; Table I). This study had been ap-
proved by the Ethical Board of our Hospital.
Criteria for inclusion and exclusion
Inclusion criteria: 1) Patients con-
forming to the diagnostic criteria for T1DM
stipulated by the World Health Organiza-
tion (WHO) (6); 2) patients diagnosed for
the first time; 3) patients whose guardians
signed the written informed consents. Exclu-
sion criteria: 1) patients who had taken the
calcium supplements or related drugs, such
as VitD, within two months before admis-
sion; 2) patients complicated with infection,
trauma or with a surgery history; 3) patients
who had the complications of severe liver or
kidney dysfunction, hyperthyroidism or oth-
er diseases of the endocrine system; 4) pa-
tients with diseases that potentially affected
the levels of VitD in serum, blood glucose,
CD4+T cell quantity and Th1/Th2 levels.
Treatment
Treatment for T1DM complicated with
ketoacidosis was conducted as follows: Two
venous channels were used – one for rapid
infusion of insulin at dose of 0.05 to 1 U/
kg·h or adjusted according to the blood
glucose of patients, while the other was
used for fluid infusion to perform the com-
prehensive treatment; when blood glucose
was controlled within 8 to 12 mmol/L, 5%
glucose + insulin (2-4 g: 1 U) was infused
intravenously; for patients with obvious re-
covery and tolerance to the meals, regular
162 Xue and Xuan
Investigación Clínica 62(2): 2021
insulin was given subcutaneously prior to
meals or sleep, and the dose was adjusted
according to the blood glucose, diet or
exercise, so as to maintain the blood glu-
cose stable for three months: fasting blood
glucose between 4.1 and 7.0 mmol/L, and
2-hour postprandial blood glucose (2hPG)
between 7.0 and 10.0 mmol/L.
For patients without ketoacidosis in the
regular group, regular insulin was given once
prior to the meal or sleep at an initial dose of
0.5 to 1.0 U/kg·d adjusted by the diet, exer-
cise and blood glucose to maintain the blood
glucose stable for three months.
For those patients in the observation
group, they, in addition to the treatment
above, received VitD drops (Qingdao Dou-
ble Whale Pharmaceutical Co., Ltd; State
Food and Drug Administration Approval No.:
H20113033; Specification: 400 U * 12 cap-
sules * three plates) orally (two capsules per
day) until the blood glucose was maintained
stable for three months.
Observation indexes
Comparison of the levels of 25(OH)D3
in serum before and after treatment
Fasting venous blood (2mL) collected
from the patients, was left at room tempera-
ture and then subjected to centrifugation at
3000 rpm for 10 min, to collect the superna-
tant and to detect the level of 25(OH)D3 in se-
rum by using the chemiluminescence immune
analyzer and the corresponding kits provided
by Roche.
Comparison of the indicators of clinical
efficacy
Before the blood glucose was main-
tained stable, the daily dose of insulin, time
TABLE I
COMPARISON OF THE GENERAL DATA BETWEEN TWO GROUPS.
General data Observation group Regular group Statistics p
Sex (n, %)
Boys 18 (42.86) 16 (38.10) 0.198
a
0.657
Girls 24 (57.14) 26 (61.90)
Age (years) 5.78±1.10 5.90±1.12 0.495
b
0.622
BMI (kg/m
2
) 21.11±2.04 21.04±2.05 0.157
b
0.876
Autoantibody (n,%)
Positive to GAD65Ab 9 (21.43) 8 (19.05) 0.074
a
0.786
Positive to ICA 6 (14.29) 5 (11.90) 0.105
c
0.746
Positive to IAA 3 (7.14) 4 (9.52) 0.156
c
0.693
Positive to IA-2Ab 3 (7.14) 3 (7.14) 0.179
c
0.672
Positive to GAD65Ab+IAA 3 (7.14) 3 (7.14) 0.179
c
0.672
Positive to the autonomous antibodies 24 (57.14) 23 (54.76) 0.048
a
0.826
Clinical manifestations
Polydipsia, polyuria, polyphagia
and weight loss
24 (57.14) 22 (52.38) 0.192
a
0.661
Fever 11 (26.19) 10 (23.81) 0.063
a
0.801
Vomiting 7 (16.67) 8 (19.05) 0.081
a
0.776
Abdominal pains 14 (33.33) 16 (38.10) 0.207
a
0.649
a
for chi-square test;
b
for t test;
c
for calibrated chi-square test.
Vit D drops combined with insulin in Type 1 diabetes 163
Vol. 62(2): 159 - 168, 2021
needed for glucose control and frequency of
hypoglycemia attack were recorded. More-
over, we compared the 2hPG at the time
before treatment, one month later and after
treatment between the two groups.
Comparison of the positive rate of CD4+T
cells expressing INF-γ, IL-4 in peripheral
blood and the INF-γ/IL-4 ratio
Samples of venous blood (2.5 mL) were
drawn from patients before treatment, one
month later and after the treatment to isolate
the peripheral blood monocyte cells (PBMCs)
by using the density gradient centrifugation,
and the harvested PBMCs were diluted to a
density of 1.0×10
6
/mL with the RPMI1640
medium. PBMCs were then stimulated by
being incubated with the phorbol ester and
monensin, followed by fixation in paraformal-
dehyde. Surface antigens were labeled by con-
jugating with the anti-CD4+ antibody, and
holes were then made on the surface of cells
by the treatment of saponin-diosgenin com-
plex, where the monoclonal anti-INF-γ and
anti-IL-4 antibodies were added, followed by
the detection of positive rate of CD4+T cells
expressing INF-γ, IL-4 in peripheral blood by
using the flow cytometry.
Comparison of the incidence of adverse
reactions
Adverse reactions, including the dys-
function of liver or kidney, or anomalies in
the biochemical indicators of patients in two
groups were recorded during the treatment.
Comparison of the incidence of
complications and re-hospitalization rates
between two groups
Follow up was carried out within six
months after treatment to record the inci-
dence of retinal lesions, diabetic nephropa-
thy, skin lesions or other complications, and
the re-hospitalization rate.
Statistical analysis
SPSS 24.0 software was used to analyze
the data in this study. Measurement data
were expressed in form of mean ± standard
deviation (x±s). For repeated measure-
ments, the difference was validated by the
repeated measures analysis of variance, while
LSD-t test was adopted to validate the differ-
ence between two groups. Enumeration data
were described as n (%), and for the frequen-
cy ranging from 1 to 5, calibrated chi-square
test was carried out to detect the difference,
while for frequency > 5, chi-square test was
adopted. P<0.05 suggested that the differ-
ence had statistical significance.
RESULTS
Comparison of the levels of 25(OH)D3
in serum before and after treatment
Difference of the levels of 25(OH)D3
in serum before treatment showed no sta-
tistical significance (P>0.05), while after
treatment, the level of 25(OH)D3 in the
observation group surpassed that of the
regular group (P<0.05). Besides, in the
observation group, the level of 25(OH)
D3 after treatment experienced an obvi-
ous increase as compared to the level after
treatment (P<0.05), while in the regular
group, no significant change was found (P
> 0.05; Table II).
Comparison of the clinical indicators
between two groups
In comparison with the regular group,
patients in the observation group excelled
in the lower daily doses of insulin, shorter
time needed to control the blood glucose
and a lower frequency of hypoglycemia (all
P< 0.05); for 2hPG, the differences between
two groups, different time points and inter-
actions showed statistical significance (all
P< 0.05), while no significant difference
was identified in the 2hPG between the two
groups before treatment (P>0.05). One
month later and after treatment, 2hPG in
the observation group was lower than that
in the regular group (P<0.05), and particu-
larly, 2hPG in two groups was all lower than
that before treatment (P<0.05; Table III).
164 Xue and Xuan
Investigación Clínica 62(2): 2021
Comparison of the positive rates of
CD4+T cells expressing INF-γ, IL-4 and
the INF-γ/IL-4 ratios in peripheral blood
Statistical significance was indicated
in the differences of the positive rates of
CD4+T cells expressing INF-γ, IL-4 and those
of the INF-γ/IL-4 ratios between groups, dif-
ferent time points and interactions (all P <
0.05). Prior to the treatment, no significant
difference was reported in comparing the
positive rates and INF-γ/IL-4 ratios (all P >
0.05); one month later, in the observation
group, positive rates of CD4+T cells express-
ing INF-γ and INF-γ/IL-4 ratio were all lower
than those in the regular group, with a higher
positive rate of CD4+T cells expressing IL-4
(all P<0.05); as the treatment went on, posi-
tive rates of CD4+T cells expressing INF-γ
and INF-γ/IL-4 ratio continued decreasing in
two groups (all P<0.05), while positive rates
of CD4+T cells expressing IL-4 increased (P
< 0.05; Table IV).
Comparison of the incidence of adverse
reactions
During the treatment, patients in the
two groups had no severe adverse reactions, or
anomalies in the functions of liver or kidney.
Comparison of the incidence of
complications and re-hospitalization rates
There were no reported cases of com-
plications during the follow up in the ob-
servation group, but one patient was re-
hospitalized due to the fluctuation of blood
glucose; patients in the regular group had
seven cases of complications, including two
cases of retinal lesion, two cases of diabetic
TABLE II
COMPARISON OF THE LEVELS OF 25(OH)D3 IN SERUM BEFORE
AND AFTER TREATMENT ( (x±s), ng/mL).
Group N Before treatment After treatment t p
Observation group 42 21.26±2.14 29.35±3.12 13.858 0.000
Regular group 42 21.11±2.17 21.46±2.96 0.618 0.538
t 0.319 11.889 —— ——
p 0.751 0.000 —— ——
TABLE III
COMPARISON OF THE CLINICAL INDICATORS BETWEEN TWO GROUPS
(x±s)
Group Observation
group
Regular
group
t/F p
N 42 42
Daily dose of insulin (U/kg) 1.20±0.21 1.49±0.32 4.91 0
Time needed to control
the blood glucose (d)
5.20±0.80 6.41±1.20 5.437 0
Hypoglycemia
frequency
(times/d) 0.35±0.06 0.65±0.12 14.491 0
2hPG
(mmol/L)
Before treatment 7.98±0.80 7.93±0.82 F
intergroup
=7.028; F
time
=21.289;
F
interaction
=17.615
p
intergroup
=0.000;
p
time
=0.000;
p
interaction
=0.000
One month later 4.79±0.53
ab
5.52±0.55
b
After treatment 4.81±0.49
ab
5.54±0.51
b
a
p<0.05 vs. the regular group;
b
p < 0.05 vs. the level before treatment in the same group.
Vit D drops combined with insulin in Type 1 diabetes 165
Vol. 62(2): 159 - 168, 2021
nephropathy and three cases of skin lesions,
and eight patients were re-hospitalized due
to the fluctuation of blood glucose. Thus,
the total incidence rate of complications in
the observation group was lower than that in
the regular group (P<0.05; Table V).
DISCUSSION
T1DM is a highly complicated T cell-
dominated autoimmune dysregulation,
generally caused by the interaction be-
tween environmental factors and genetic
factors (7-8). T1DM progression involves
two stages – inflammation of pancreas and
overt diabetes: Inflammation of pancreas
is predominantly the persistent injury and
apoptosis of pancreas islet β cells caused
by the infiltration of macrophages and
lymphocytes, and when the apoptotic rate
of pancreas islet β cells surpasses 90%,
disease progresses into the overt diabetes
with clinical manifestations of polydipsia,
polyuria, polyphagia and weight loss, se-
verely devastating the mental health and
life quality of children (9). Previous data
(10) support that VitD plays a key role in
T1DM pathogenesis via binding to VitD re-
ceptor (VDR) which is mainly distributed
in the pancreas and T lymphocytes. VitD,
at a low level, can induce the long-term
inflammation of pancreas islet β cells,
thereby affecting the functions to synthe-
size and secret insulins, or triggering the
intolerance to glucose, or decreasing the
sensitivity of insulin, eventually contribut-
ing to the development of diabetes mel-
litus.
Results of this study indicated that af-
ter treatment, the level of 25(OH)D3 in se-
rum of patients was higher than that in the
regular group, and the such an increase was
TABLE IV
COMPARISON OF THE POSITIVE RATES OF CD4
+
T CELLS EXPRESSING INF-Γ, IL-4
AND THE INF-Γ/IL-4 RATIOS IN PERIPHERAL BLOOD (x±s, n=27).
Group Observation group Regular group t/F p
INF-γ (%) Before
treatment
22.51±2.83 22.47±2.59 F
intergroup
=10.186;
F
time
=22.261;
F
interaction
=16.526
p
intergroup
=0.000;
p
time
=0.000;
p
interaction
=0.000
One month
later
17.54±2.09
ab
19.36±2.13
b
After
treatment
14.32±1.59
abc
17.12±1.86
bc
IL-4 (%) Before
treatment
3.52±0.31 3.64±0.33 F
intergroup
=13.516;
F
time
=8.516;
F
interaction
=11.869
p
intergroup
=0.000;
p
time
=0.000;
pinteraction
=0.000
One month
later
4.23±0.49
ab
3.85±0.55
b
After
treatment
5.22±0.45
abc
4.61±0.46
bc
INF-γ/IL-4 Before
treatment
6.37±1.06 6.25±1.12 F
intergroup
=11.896;
F
time
=25.296;
F
interaction
=18.417
p
intergroup
=0.000;
p
time
=0.000;
p
interaction
=0.000
One month
later
4.12±0.44
ab
5.25±0.46
b
After
treatment
2.85±0.51
abc
4.12±0.55
bc
a
p <0.05 vs. the regular group;
b
p <0.05 vs. the level before treatment in the same group;
c
p < 0.05 vs. the level one
month later in the same group.
166 Xue and Xuan
Investigación Clínica 62(2): 2021
only found in the observation, instead of
the regular group; besides, patients in the
observation group excelled in the lower dos-
age of insulin, shorter time needed to con-
trol the blood glucose and a lower frequency
of hypoglycemia; one month later and after
treatment, 2hPG of patients in the observa-
tion group was lower than that in the regu-
lar group, but the positive rate of CD4+T
cells expressing IL-4 were higher than that
in the regular group. Furthermore, as the
treatment went on, 2hPG in two groups
continued to decrease, suggesting that VitD
drops in combination with the regular insu-
lin treatment is conducive to the control of
blood glucose and reducing the dose of insu-
lin and frequency of hypoglycemia in T1DM
patients. As an essential vitamin, VitD is a
kind of steroid hormone that is metabolized
into the active 25(OH)D3 which is a major
ligand of VDR that is involved in a variety of
biological events, including the metabolism
of calcium and phosphorus of multiple or-
gans and tissues as well as the cell differen-
tiation and growth (11).
A retrospective analysis of Wu M et
al. (12) found that VitD supplementation
is critical to the T1DM patients. Thus, in
their study, regular insulin replacement
therapy was combined with the use of VitD
drops, and as well as us, found that T1DM
patients had a significant reduction in the
daily dose of insulin, time needed to con-
trol the blood glucose and the frequency
of hypoglycemia.
This suggest that VitD level in T1DM
patients contributes to the control of blood
glucose, which may attribute to the increase
of VitD that promotes 25(OH)D3 to bind to
the VDR on the surface of pancreas islet β
cells, thereby regulating the relevant signal
pathways to improve the secretion of pancre-
as islet β cells. However, the specific regula-
tion mechanism remains to be validated by
the future work.
In addition, we found that one month
later and after treatment, positive rate of
CD4+T cells expressing INF-γ and INF-γ/
IL-4 ratio were all lower than those in the
regular group, with a higher positive rate of
CD4+T cells expressing IL-4; as the treat-
ment went on, positive rates of CD4+T cells
expressing INF-γ and INF-γ/IL-4 ratio contin-
ued decreasing in both groups, while posi-
tive rates of CD4+T cells expressing IL-4
increased in the observation group; during
the treatment, patients in the two groups
had no severe adverse reactions, and during
the follow-up, the incidence of complica-
tions and re-hospitalization rate in the ob-
servation group were lower than those in the
regular group. Thus, VitD drops in combina-
tion with the insulin replacement therapy
is conducive to the regulation of Th1/Th2
imbalance in T1DM patients, which is safe
and reliable, with the remarkable decreases
in the incidence rate of complications and
re-hospitalization rate.
Since T1DM is an autoimmune dis-
ease, we infer that the effect of VitD on the
function of pancreatic islet β cells may be
realized by the immune regulation, instead
of the calcium/phosphorus metabolism.
Current evidence (13-14) shows that infil-
TABLE V
COMPARISON OF THE INCIDENCE OF COMPLICATIONS AND RE-HOSPITALIZATION RATES.
Group N Incidence of complications
n(%)
Re-hospitalization
n(%)
Observation group 42 0 (0.00) 1 (2.38)
Regular group 42 7 (16.67) 8 (19.05)
Calibrated χ
2
4.480
p 0.018 0.034
Vit D drops combined with insulin in Type 1 diabetes 167
Vol. 62(2): 159 - 168, 2021
trations of monocytes and cytotoxic lym-
phocytes are the pathological landmarks
of T1DM. T lymphocyte-mediated immune
dysregulation causes the left shift in the
equilibrium of Th1/Th2, representing the
enhancement of Th1 immune response that
further increases the secretion of INF-γ and
antigen presentation, thus strengthening
the sensibility of pancreas islet β cells to
the cytotoxicity and advancing the progres-
sion of T1DM. In this study, in addition
to the regular supplementation of exog-
enous insulin, VitD was also taken to regu-
late the balance of Th1/Th2. According to
our analysis, 25(OH)D3 is able to bind to
the VDR on the surface of T lymphocytes,
which, therefore, transfers the complex to
the VitD reaction element in the promotor
of IFN-γ to affect the transcription of IFN-γ
in Th1 cells, thus inhibiting the response
of Th1 (15). Moreover, increased 25(OH)D3
contributes to the synthesis and secretion
of IL-4, which results in the right shift of
Th1/Th2 balance and improves the immune
dysregulation of pancreas islet β cells. Ad-
ditionally, patients who underwent the
combined strategy had no severe adverse
reactions, suggesting that appropriate sup-
plementation of VitD is safe and reliable in
treatment of T1DM, and also contributes to
the stable control of blood glucose (16).
In conclusion, for pediatric T1DM pa-
tients, VitD drops in combination with the
regular insulin replacement therapy im-
proves the control of blood glucose, reduc-
es the dose of insulin and the frequency
of hypoglycemia, and restore the dysregu-
lated Th1/Th2 balance. Besides, it is safe
and reliable in the treatment of T1DM,
with a low incidence rate of complications
and re-hospitalization rates. However, the
conclusion of this study is still limited due
to the small sample size that may increase
the statistical bias. Thus, in future work,
we will expand the sample size and pro-
long the follow-up to validate the accuracy
of this conclusion.
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