153153

Dental Journal
(Majalah Kedokteran Gigi)
2020 September; 53(3): 153–158

Research Report

The correlation between dental caries and serum iron (Fe) levels 
in female students of Mamba’ul Khoiriyatil Islamiyah (MHI) 
Madrasa in Jember, East Java, Indonesia

Ristya Widi Endah Yani,1 Taufan Bramantoro,2 Farida Wahyuningtyas3 and Talitha Zulis Islaamy4
1Department of Dental Public Health, Faculty of Dentistry, Universitas Jember, Jember – Indonesia
2Department of Dental Public Health, Faculty of Dental Medicine, Universitas Airlangga, Surabaya – Indonesia
3Department of Nutrition, Faculty of Public Health, Universitas Jember, Jember – Indonesia
4Health Sciences Postgraduate Program, Universitas Jember, Jember – Indonesia

ABSTRACT
Background: Dental caries may cause discomfort and pain when chewing food, which in turn leads to insufficient absorption of 
nutrients, including iron, by the body. Lack of iron intake can cause iron-deficiency anaemia. Iron deficiency may also decrease 
salivary secretion and buffer capacity due to reduced salivary gland function, which may lead to dental caries. Purpose: This study 
aims to analyse the correlation between dental caries and serum iron (Fe) levels in the students of Mamba’ul Khoiriyati Islamiyah 
(MHI) Madrasa Aliyah in Bangsalsari Jember. Methods: Out of 71 students aged 15-18 years, 24 students were examined for caries 
with the DMF-T index and blood samples were also collected using the phlebotomy technique to assess the serum iron (Fe) level in 
µg/dL. The data were analysed using the Spearman’s correlation test (α = 0.05). Results: The average DMF-T score was high (7 ± 
3.4) and the average serum iron (Fe) level was below normal (38 ± 11.5 µg/dL). The Spearman’s correlation test for dental caries and 
serum iron (Fe) levels showed significant results (p <0.05). Conclusion: The occurrence of dental caries correlates with serum iron 
(Fe) levels. The higher the level of serum iron (Fe), the lower the level of dental caries.

Keywords: dental caries; iron-deficiency; students

Correspondence: Ristya Widi Endah Yani, Department of Dental Public Health, Faculty of Dentistry, Universitas Jember. Jl. Kalimantan 
37, Jember 68121, Indonesia. Email: ristya_widi@unej.ac.id

INTRODUCTION

Caries is the most common dental disease, and it is considered 
to be a major global dental and oral health problem.1 Caries 
occurs due to the demineralisation process caused by acid 
bacterial activity from fermentable carbohydrates. Within 
a certain period of time, this process may damage tooth 
enamel, causing a cavity.2 The prevalence of dental caries in 
Indonesia is relatively high, and has increased from 43.4% 
in 2007 to 53.2% in 2013.3 The basic health research (BHR) 
carried out in 20133 also showed that the prevalence of caries 
tends to increase with age, as it was 1.4% in the 12-14 year 
age group and 1.8% in those aged 15-24 years. The national 
health and nutrition examination survey states the prevalence 
of caries in the age groups of 12-15 years and 16-19 years 
was 14.5% and 22.6% respectively.4

Anaemia or low haemoglobin levels in the blood denote 
a condition in which the body cannot meet physiological 
needs.5 Anaemia is caused by iron deficiency in high-risk 
groups including children, women of childbearing age 
and pregnant women.5 Younger women also commonly 
have increased iron needs as a result of rapid growth and 
mestruation.6

In 2005, the number of people worldwide with anaemia 
was 1.62 million. Women of childbearing age were among 
those with anaemia, who in 2011 accounted for 29% of 
the world population (528.7 million people).5 The BHR in 
2007 showed that the percentage of anaemia in Indonesia 
in women of childbearing age who were not pregnant          
(≥ 15 years) in urban areas was 19.7%. Furthermore, the 
percentage of anaemia in childbearing women aged 15-44 
years was 35.3% in 2013.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v53.i3.p153–158

mailto:ristya_widi@unej.ac.id
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154 Yani et al./Dent. J. (Majalah Kedokteran Gigi) 2020 September; 53(3): 153–158

This study aims to analyse the correlation between 
dental caries and serum iron (Fe) levels in the students of 
Mamba’ul Khoiriyatil Islamiyah Madrasa, Bangsalsari, 
Jember. According to the primary healthcare of Bangsalsari, 
there is a high prevalence of anaemia in female students 
at this school. Most of them live in dormitories and have 
separate classrooms from male students, making sampling 
easier. There are female students aged 15-18 years 
who need early intervention to avoid anaemia in future 
pregnancies. 

MATERIALS AND METHODS

An analytic observational study was performed on 71 
female students aged 15-18 years in Mamba’ul Khoiriyatil 
Islamiyah (MHI), a Madrasa Aliyah in Jember. The 
respondents were chosen by using purposive sampling. 
Blood serum was only taken from 24 students who met 
the inclusion criteria (willing to be respondents for dental 
check, physically healthy, not currently menstruating, 
having normal menstrual periods and not having a chronic 
disease).

All respondents had signed a consent form stating 
that they were willing to participate in this study. The 
respondents were also asked to fill in a form giving 
personal details (name, home address, age, level of parents’ 
education, parents’ occupation, family income, amount of 
pocket money and residence). 

Dental caries was measured by using the decayed, 
missing, filled (teeth) (DMF-T) index. The tooth was 
diagnosed as decayed (D) if there was primary or recurrent 
caries. The missing (M) component related to teeth that had 
been extracted due to caries, or were indicated for extraction 
due to caries. The last component, filling (F), related to 
teeth that had been filled due to caries. The level of dental 
caries in each respondent was calculated by the sum of the 
components D, M and F.

The DMF-T index assessment was performed by 
a clinician using a disposable dental instrument kit 
(Dochem). The dental caries categories based on the 
DMF-T index were very low (6.5).7 Serum iron (Fe) 
levels were measured in µg/dL. Blood samples were taken 
intravenously up to 3 cc, then put into a vacutainer tube 
GP and put in a cooler box (Marvel Hro-B35l) that had 
been filled with ice packs. The samples were then sent 
to the laboratory to measure the serum iron (Fe) levels 
using the phlebotomy technique. The procedure of taking 
blood serum was as follows. First, all the equipment 
needed for the procedure (sterile glass or plastic tubes 
with rubber caps, vacuum-extraction blood tubes, syringe, 
tourniquet, alcohol hand rub, 70% alcohol swabs for skin) 
was collected. Next, the patient was prepared for the 
procedure. The site for drawing blood was selected by 
extending the patient’s arm and inspecting the antecubital 
fossa or forearm. The tourniquet was then applied about 
4–5 finger widths above the venepuncture site and the 

vein re-examined. The operator then cleaned their hands, 
washing with soap and water if not visibly contaminated, 
otherwise cleaning with alcohol rub. After performing 
hand hygiene, the operator put on well-fitting, non-sterile 
gloves. The site was then cleaned with a 70% alcohol 
swab for 30 seconds and allowed to dry completely (30 
seconds). The syringe was then injected and the blood 
drawn. Following this, the blood was put into a test tube. 
Finally, it was labelled and sent to the laboratory.8

The normality test showed that only the serum iron 
(Fe) level data were not normally distributed. The data 
were then analysed using the Spearman’s correlation test 
with α = 0.05 to find the correlation between dental caries 
and serum iron (Fe) levels. All the procedures performed 
in this study have been reviewed and approved by the 
institutional ethical committee in the Faculty of Dentistry, 
University of Jember (certificate number 824/UN25.8/
KEPK/DL/2019).

RESULTS

The data in Table 1 shows that the age range of students 
in MHI Madrasa was 15 to 18 years, with the majority (22 
students) aged 15 years (31%). Parental education (father 
and mother) was mostly at elementary school level. There 
were 51 respondents who had fathers with elementary school 
education (71.8%), and 59 respondents who had mothers 
with elementary school education (83.1%). There were 39 
respondents with fathers who were working as entrepreneurs 
(54.9%), and 36 respondents who had mothers who were 
housewives (50.7%). The majority of the respondents (45) 
were from low income families (≤ IDR 1,500,000/month) 
(63.4%). There were 57 students with an allowance of less 
than IDR 5000 per day (80.3%). The data revealed that 
66 respondents (92.9%) lived in the dormitory and only 5 
students (7.1%) lived with their parents. 

There were 24 students who were asked about 
food consumption using food recall 2x24 hours. Most 
respondents were exposed to deficits in energy, protein, 
iron (Fe) and vitamin C (Table 2). According to Kusharto 
and Supariasa,9 someone who has a daily intake of less than 
89% of the recommended dietary allowance (RDA) has an 
energy and nutrient deficit. Adolescent girls who consume 
less food containing protein, iron (Fe) and vitamin C are 
more at risk of anemia.10

From the 71 students selected using the inclusion 
criteria, there were 24 students who were examined for 
dental caries and serum iron (Fe) levels. The dental caries 
examination was carried out using the DMF-T index. There 
were 23 respondents who had dental caries (95.8%). The 
results showed that the DMF-T score for the 24 students of 
MHI Madrasa was in the range of 0 to 13 with an average of 
7 ± 3.4, which can be grouped into the very high category 
(Table 3). 

The results of the examination of serum iron (Fe) levels 
showed an average of 38 ± 11.5 µg/dL and ranged from 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v53.i3.p153–158

http://e-journal.unair.ac.id/index.php/MKG
http://dx.doi.org/10.20473/j.djmkg.v53.i3.p153-158


155Yani et al./Dent. J. (Majalah Kedokteran Gigi) 2020 September; 53(3): 153–158

12 µg/dL to 50 µg/dL (Table 2). Normal serum iron (Fe) 
levels in adolescent girls are 50 µg/dL.11 This indicated 
that the levels in these students were below normal, and 
some (10 respondents) might suffer from iron deficiency 
anaemia (83.3%).

The correlation between dental caries and serum 
iron (Fe) levels was then analysed using the Spearman’s 
correlation test with a significance of p <0.05. The results 
showed a significant correlation between the DMF-T scores 
and serum iron (Fe) levels with a p value of 0.007. This 
showed that there is a correlation between dental caries and 
serum iron (Fe) levels (Table 4). The correlation is inverse, 
meaning the higher the level of serum iron (Fe), the lower 
the level of dental caries.

DISCUSSION

A high prevalence of dental caries is associated with low 
socioeconomic conditions.12 Socioeconomic conditions 
can be measured using level of parental education, parental 
income and social status in the community.13,14 The 
majority of respondents had parents with a low level of 
education. This may lead to dental caries as parents with a 
lower level of education may make poor choices about the 
level of acid intake of their children.15 The socioeconomic 
level of these students was middle to low, due to the fact 
that the school is not close to any urban areas. This means 
that medical care, including dental and oral health care, is 
in shorter supply .16

Table 1. Characteristics of respondents

Characteristics
Total
(n)

%

Age
15 years old 22 31
16 years old 15 21.1
17 years old 18 25.4
18 years old 16 22.5
Total 71 100

Parents’ education level
Father 

Elementary School 51 71.8
Middle School 15 21.1
High School 5 7.1
Total 71 100

Mother 
Elementary School 59 83.1
Middle School 8 11.3
High School 4 5.6
Total 71 100

Parents’ occupation
Father 

Entrepreneur 39 54.9
Farmer 19 26.8
Trader 8 11.3
Construction worker 5 7
Total 71 100

Mother 
Entrepreneur 9 12.7
Farmer 15 21.1
Trader 11 15.5
Housewife 36 50.7
Total 71 100

Family income
Low (≤ IDR1,500,000/month) 45 63.4
Medium (> IDR1,500,000 - IDR 
2,500,000/month)

26 36.6

Total 71 100
Pocket money
≤ IDR 5,000/day 57 80.3
> IDR 5,000/day - IDR 10,000/day 14 19.7
Total 71 100

Residence
Dormitory 66 92.9
Outside Dormitory 5 7.1
Total 71 100

Table 2. Total intake of energy, protein, iron (Fe) and vitamin 
C per day students of MHI Madrasa, Bangsalsari, 
Jember

Variable N
Category Average/day/

personInadequate Adequate

Energy 
(Kcal)

24 23 1 1376

Protein (g) 24 24 0 36.5

Iron (Fe) 
(mg)

24 24 0 5.9

Vitamin C 
(mg)

24 24 0 13.4

Table 3. Data on the results of the level of dental caries and 
serum iron (Fe) levels of students of MHI Madrasa, 
Bangsalsari, Jember

Variable N Minimum Maximum Average SD

Dental 
caries

24 0 13 7 3.4

Serum 
iron (Fe) 
level

24 12 50
38 µg/

dL
11.5

Table 4. Spearman’s correlation test of dental caries with serum 
iron (Fe) levels

Variable p-value
Correlation 
coefficient

Notes

Dental 
caries - 
serum iron 
(Fe)

0.007 -0.539

There is correlation 
between dental 
caries and serum 
iron (Fe) levels.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v53.i3.p153–158

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156 Yani et al./Dent. J. (Majalah Kedokteran Gigi) 2020 September; 53(3): 153–158

Parental education, parental work and family income 
are linked. A higher level of education will lead to jobs 
with higher salaries.17 Julianto and Utari18 state that the 
level of education significantly influences the level of 
individual income, where the higher the level of education, 
the higher the income level. For these students, the low level 
of education of their parents (mainly their fathers) means 
that they often work as entrepreneurs with a low income          
(≤ IDR 1,500,000/month). This can lead to parents believing 
that dental care for their children is not urgent.14

Children who come from low socioeconomic 
backgrounds do not buy food based on nutritional value, 
but good taste and low price.19 The majority of these 
students had an allowance of less than IDR 5000 per day. 
This amount of money can be used to buy snacks outside 
the home (dormitory) that are high in sodium, sugar and fat 
as well as high-sugar drinks.20 The children who live with 
their parents eat food cooked by their mothers, who pay 
more attention to the nutritional content of the food being 
served to their families.21

The female students often consumed food containing 
less iron due to the problems associated with a low 
socioeconomic background.22 Low haemoglobin levels can 
affect the inflammatory response in the pulp.23 Haemoglobin 
in the blood carries oxygen to the tissues. If the level of 
haemoglobin in the blood decreases, hypoxia might occur 
in the tissues, which decreases the inflammatory response 
in the pulp and increases the level of dental caries.23

The DMF-T scores of the respondents averaged 7 ± 3.4. 
This score, according to the World Health Organization 
(WHO), is very high. This is probably caused by the 
consumption of snacks and beverages during the day, 
such as wafers and sweet tea. Food containing high sugar 
levels and improper tooth brushing behaviour causes dental 
caries.24 Sugary foods tend to increase the occurrence of 
dental caries compared to fibrous foods.25 The type of 
food consumed relates to the formation of dental caries. 
Consumption of frequent and repeated cariogenic foods 
will cause the pH of the oral cavity to become more acidic, 
which facilitates the demineralisation of enamel and 
formation of dental caries.24 A good diet and regular dental 
care are very important to maintain the teeth and prevent 
vulnerability to cavities. Widayati26 suggests that there is a 
need for information regarding the importance of 6 monthly 
dental and oral examinations for children. 

The results of the serum iron (Fe) level examinations 
showed that the average serum iron (Fe) levels of MHI 
Bangsalsari Jember female students were below normal. 
Serum iron (Fe) is a microelement iron that is essential 
for the body. This substance is required in haematopoiesis 
(blood formation), specifically for the synthesis of 
haemoglobin (Hb). Haemoglobin (Hb) as oxygen that 
delivers erythrocytes is essential for the body. Haemoglobin 
consists of Fe (iron), protoporphyrin and globin (1/3 Hb 
weight consists of Fe).27

Anaemia generally occurs throughout the world, 
especially in developing countries. Overall, anaemia occurs 

in 45% of women in developing countries and in 13% of 
women in developed countries.28 Anaemia is characterised 
by low concentrations of haemoglobin (Hb) or haematocrit 
of the threshold value. It is caused by low production of red 
blood cells (erythrocytes) and Hb, increased erythrocyte 
damage or excessive blood loss.29

There are several types of anaemia, but the most 
common is iron deficiency anemia.29 It occurs due to 
an increased need for iron in the body such as during 
menstruation, pregnancy or childbirth, while only a small 
amount of iron is entering the body.30 Adolescent girls are at 
risk from iron deficiency anaemia because they menstruate 
every month and lack knowledge about the condition.31 The 
volume of blood lost during menstruation ranges from 30 
to 50cc per month. This causes women to lose as much iron 
as 12-15 mg per month or 0.4-0.5 mg per day for 28 to 30 
days. During menstruation, women also not only experience 
iron loss but also experience basal loss. In total, women can 
experience as much iron loss as 1.25 mg per day.29

Iron deficiency anaemia is caused by a lack of iron in 
the body for erythropoiesis. This is a condition characterised 
by hypochromic-microscopic red blood cells, decreasing 
levels of serum iron (Fe) and transferrin as well as a rise 
in the total iron binding capacity (TIBC). Also, reservation 
of the iron in the bone marrow and elsewhere is very poor 
or non-existent. Many factors can cause iron deficiency 
anaemia, such as profuse bleeding during injury, surgery, 
menstruation and an increased need for iron in pregnant 
women and for growth. Other causes include a lack of intake 
of iron and protein from food and impaired absorption of 
fluids caused by parasites in the body, such as hookworm 
or tapeworm. In these cases daily iron intake is needed to 
replace iron lost through faeces, urine and skin.27

The Spearman’s correlation test for dental caries and 
serum iron (Fe) levels showed significant results (p <0.05). 
The results indicated a correlation between dental caries 
and serum iron (Fe) levels. Patients with high serum iron 
(Fe) levels have a low DMF-T score indicating a low 
prevalence of dental caries, while patients with low serum 
iron (Fe) levels have a high DMF-T score indicating a 
high prevalence of dental caries. From this study, it can be 
concluded there is an inverse correlation between serum 
iron (Fe) levels and dental caries. These results are in line 
with research conducted by Daryani et al.32

Untreated caries also causes acute and chronic 
inflammation such as pulpitis, periapical aphasia and fistulas 
that release various mediators, especially interleukin I and 
cytokines. Pulp pain at night causes sleep disturbance and 
decreases glycosteroid production. This decrease causes 
suppression of haemoglobin production in the blood, 
leading to anaemia caused by chronic inflammation due 
to the restrained erythropoiesis.33

Dental caries causes discomfort and pain when chewing. 
As a result, the food cannot be chewed properly, and thus 
the absorption of nutrients in the intestine is reduced. This 
can cause nutritional deficiencies, which also affect the iron 
levels in the body.34 The most abundant source of iron is 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v53.i3.p153–158

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157Yani et al./Dent. J. (Majalah Kedokteran Gigi) 2020 September; 53(3): 153–158

found in meat, chicken and fish. If the food is not chewed 
properly, then iron cannot be optimally absorbed by the 
small intestine.33 Research by Nagarajan et al.35 in children 
with iron deficiency anaemia showed an improvement 
in nutritional status after overall oral cavity treatment. 
The treatment relieves pain and therefore increases iron 
intake.

The theory of the correlation between serum iron (Fe) 
levels and dental caries is a two-way effect theory.23 Serum 
iron (Fe) levels affect the occurrence of dental caries. 
Conversely, dental caries can also influence the risk of 
low serum iron (Fe) levels, which can lead to anaemia. 
The level of dental caries in those with anaemia can also 
increase due to the formation and decrease in calcification 
of dentin and enamel.23 Thus, teeth are easily decalcified 
and caries might occur. In addition, people who experience 
severe anaemia usually consume drugs that contain sucrose 
and are taken frequently and continuously.23 Sucrose is 
one of the components that can cause caries if consumed 
continuously.

Higher levels of dental caries can also occur in patients 
with anaemia who have complications and require inpatient 
care. Inpatients have a habit of not maintaining oral hygiene 
properly due to sufferers having difficulty in brushing their 
teeth routinely, worsening their oral hygiene and increasing 
the frequency of caries occurrence.23

Another theory states that iron deficiency affects 
salivary gland function. The function of the salivary glands 
of iron deficient patients tends to decrease. As a result, 
salivary secretion and buffer capacity are reduced, which 
increases the risk of dental caries.36

Also, the function of the salivary glands can be disrupted 
due to iron deficiency, causing reduced salivary secretion 
and low buffer ability. Salivary buffering is a mechanism 
to restore the pH of the oral cavity to normal. A low pH can 
cause tooth decay and damage mucosal surfaces. Saliva has 
a buffer function to prevent enamel demineralisation based 
on the phosphate and carbonic/bicarbonate system. When 
the buffer capacity is low, there is an increased risk of dental 
caries.36 In addition, reduced salivary secretion also reduces 
simple mechanical rinsing, antimicrobial activity, calcium 
phosphate binding, immune surveillance and antimicrobial 
peptide secretion in the oral cavity. These are the main 
natural defence systems in the oral cavity.37

The current study supplements the evidence of 
correlation between dental caries and serum iron (Fe) levels 
in female students aged 15-18 years. Early intervention is 
needed to prevent health problems and achieve good health 
in future pregnancies. Our paper is unique, due to the fact 
that determination of dental caries using blood serum 
achieves better results than using saliva samples in general 
studies. Unfortunately, this study had limited samples due 
to the fact that many samples did not meet the inclusion 
criteria. Expansion of location and additional samples in 
further research are needed to gain the best understanding 
of oral health and nutritional problems in young women. 
In conclusion, there is a correlation between dental caries 

and serum iron (Fe) levels. The higher the level of serum 
iron (Fe), the lower the level of dental caries.

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Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
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https://www.cdc.gov/nchs/nhanes/
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Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v53.i3.p153–158

http://e-journal.unair.ac.id/index.php/MKG
http://dx.doi.org/10.20473/j.djmkg.v53.i3.p153-158