111111

Research Report

Dental Journal
(Majalah Kedokteran Gigi)
2017 September; 50(3): 111–115

Correlation between reactive oxygen species and oral conditions 
in elderly individuals with hypertension: a preliminary study

Nanan Nur’aeny, Wahyu Hidayat, and Indah Suasani Wahyuni
Department of Oral Medicine 
Faculty of Dentistry, Universitas Padjadjaran
Bandung - Indonesia

abstract

Background: The increased number of elderly people in Indonesia can be a positive phenomenon if their health is well-preserved. 
The elderly are influenced by physiological changes, environmental factors, and personal habits making them susceptible to chronic 
diseases. The oral cavity is also subject to change, one of the causes being reduced salivary flow that is manifested in dental caries 
and other oral health concerns. This disease is stimulated by oxidative stress in the body due to an imbalance between reactive oxygen 
species (ROS) and the antioxidant defense system. Purpose: This preliminary study aimed to investigate ROS-related hypertension and 
the state of oral health of elderly patients. Methods: The study constitutes a combination of cross-sectional observation and consecutive 
sampling. Twelve subjects, selected on the basis of inclusive and exclusive criteria, consisted of two males and ten females. Physical 
examinations and blood sampling were performed on all subjects. R version 3.4.1 for Windows operating system was used to perform 
statistical tests. Results: The 12 patients shared a history of hypertension, the lowest ROS level was 0.87 IU/ml, while the highest was 
one of 7.20 IU/ml. The correlation between ROS and oral conditions showed only ROS and tooth loss as having a significant positive 
correlation. An independent t test showed there to be a mean difference between ROS with Miyazaki index 1 and 2 but it was statistically 
insignificant. Conclusion: There was no correlation between the ROS level in the bloodstream and general oral health, except in the 
relationship between the ROS level in the bloodstream and tooth loss which had a positive correlation. 

Keywords: reactive oxygen species; hypertension; oral condition; elderly

Correspondence: Nanan Nur’aeny, Department of Oral Medicine, Faculty of Dentistry, Universitas Padjadjaran. Jl. Sekeloa Selatan 
no. 1 Bandung 40132, Indonesia. E-mail: nanan.nuraeny@fkg.unpad.ac.id.

introduction

The increased number of elderly people in Indonesia 
could be a positive phenomenon if their health can be well-
preserved. The elderly are influenced by physiological 
changes, environmental factors, and personal habits making 
them susceptible to chronic diseases, such as hypertension.1 
The oral cavity might also experience such conditions due 
to reduced salivary flow that is manifested in dental caries, 
dry mouth, and numerous other symptoms.2 The human 
body undergoes a metabolic process involving internal 
and external stimuli. The external stimuli include lifestyle 
and personal habits. Data from Riset Kesehatan Dasar 
(Riskesdas) in 2013 showed the frequency of brushing 

their teeth among a group of elderly people to be low. Such 
neglect might result in poor oral hygiene and, ultimately, as 
is the case with the elderly who experience a high incidence 
of the condition, tooth loss.3 A coated tongue is also often 
found in the elderly due to decreased efficiency of the 
salivary glands resulting from degenerative conditions 
and others factors including: systemic condition, drugs, or 
dietary habits.4 

All processes in the elderly could generate free radicals 
in the cell as a consequence of enzymatic and non-
enzymatic reactions. Free radicals represent any molecular 
species capable of independent existence that contains 
unpaired electrons in an atomic orbital.5 A mitochondria 
cell is an internal source of free radicals, released as a 

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.v50.i3.p111-115

http://e-journal.unair.ac.id/index.php/MKG
http://dx.doi.org/10.20473/j.djmkg.v50.i3.p111-115
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112 Nur’aeny, et al./Dent. J. (Majalah Kedokteran Gigi) 2017 September; 50(3): 111–115

by-product of energy metabolism when cells produce 
adenosine tri phosphate (ATP). This by-product is generally 
a reactive oxygen species (ROS) which plays a dual role 
as both a toxic and beneficial compound and is crucial to 
human physiological and pathophysiological processes.6,7 
At low or moderate levels, ROS exerts a beneficial effect 
on cellular responses and immune functions. With regard 
to host defence, ROS contributes directly and indirectly 
to the killing of microorganisms.8 At high concentrations, 
they generate oxidative stress. This constitutes a deleterious 
process potentially prejudicial to the entire cell structure, 
including: lipids, membranes, protein and DNA.9 
Progressive aging is associated with higher levels of 
oxidative biomolecules reacting with free radicals.10 
The progress of a pathologic condition is stimulated by 
oxidative stress in the body due to an imbalance between 
ROS and an antioxidant defense system.11 Research into 
ROS in elderly patients in Indonesia, particularly regarding 
its relation to changes within the oral cavity, has not been 
widely conducted. Thus, the purpose of this preliminary 
study is to investigate ROS-related hypertension and oral 
cavity conditions in elderly patients.

materials and methods

This study constitutes a cross-sectional observation 
and consecutive sampling conducted at the Community 
Health Center, Ujung Berung, Bandung. The observers 
were members of the research team (n=3). The inclusion 
criteria applied to all patients consisted of the following: 
male or female, aged 60 years or above, registered as a 
patient at the Ujung Berung Community Health Center, a 
history of hypertension, and a willingness to provide signed 
confirmation of informed consent. The exclusion criteria 
comprised: oral candidiasis lesions, oral leukoplakia, 
multiple ulceration of the tongue, and pre-cancerous 
ulcer lesions. Twelve subjects fitting the inclusion and 
exclusion criteria included two males and ten females. 
Oral examination and blood sampling were performed on 
the subjects, from whom 5 ml of blood was taken for ROS 
examination at the Clinical Pathology Laboratorium, Hasan 
Sadikin Hospital. R version 3.4.1 for Windows operating 
system was used to conduct statistical tests, all of which 
were performed to a significance level of 0.05. The research 
reported here received ethical approval from the Health 
Research Ethics Committee, Universitas Padjadjaran, 
number 754/UN6.C.10/PN/2017, and registration number: 
0817050696.

results

This preliminary study involved the participation of 
12 elderly patients with a history of hypertension (Table 
1 and Table 2). A Spearman correlation was calculated 
to measure the correlation between systolic and diastolic 

Table 1. Characteristics of patients (n=12)

No. Characteristics  n

1. Age range

60–69  7

70–79  5

2. Gender

Female 10

Male  2

Table 2. Blood pressure category

No. Category Blood pressure (mmHg) n

1. High normal 130–139 and/or 85–89 2

2. Mild 140–159 and/or 90–99 5

3. Moderate 160–179 and/or 100–109 3

4. Severe ≥180 and/or ≥110 2

ROS (Figure 1a and Figure 1b). Oral cavity anomalies were 
found to include dental caries, tooth necrosis, plaque and 
calculus, dental filling, tooth root, tooth loss, and coated 
tongue (Table 3). The lowest ROS level was 0.87 IU/ml, 
while the highest stood at 7.20 IU/ml (Table 4). There was 
no correlation between the ROS level in the bloodstream 
and general oral health, except in the relationship of 
the ROS level in the bloodstream and tooth loss which 
demonstrated a significant correlation (p= 0.028) (Figure 
1c-1f). An independent t test showed that there was a mean 
difference between ROS and the Miyazaki index 1 and 2, 
but this was not considered to be statistically significant 
(Figure 1g). Clinically, a coated tongue was defined as 
one with a white-yellowish layer equals in size to one- to 
two-thirds the area of the posterior dorsum of the tongue 
(Figure 2a and 2b).

discussion

This research was a preliminary study conducted on 
a small group of elderly people aged between 60 and 79 
years, with the majority falling within the 60-69 years age 
range. According to the Badan Pusat Statistik (BPS), the life 
expectancy of members of West Java’s population continues 
to increase and in the period 2015-2020 is anticipated to 
reach 72.8 years.12 The definition of who constitutes an 
elderly or geriatric person is based on broad and varied 
age ranges. Nevertheless, a common classification system 
would include: a lower range (65–74 years), a middle 
range (75–85 years), and an upper range (>85 years).2,13 
A limited amount of data in this study (Table 1) showed 

scant difference between the lower and middle range 
groups, with the number of females higher than that of 
males. According to the BPS, females enjoy a higher life 
expectancy than males.12

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.v50.i3.p111-115

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113113Nur’aeny, et al./Dent. J. (Majalah Kedokteran Gigi) 2017 September; 50(3): 111–115

Table 3. Oral conditions of patients

No.
Dental 
caries*

Tooth 
necrosis*

Tooth  
loss*

Filling Plaque/Calculus**
Tooth 
root*

Index coated 
tongue***

1 2 1 2 none exist 2 2

2 none none 4 none exist 3 2

3 none none 7 none exist 2 2

4 3 none 10 none exist 3 1

5 none 3 10 none exist 3 2

6 6 none 4 none exist 2 2

7 4 none 6 none exist 3 2

8 none none 6 none exist 4 1

9 1 none 5 none exist 2 1

10 none none 9 none exist 7 1

11 none 2 3 none exist 1 2

12 1 none 2 none exist 1 1

Note: * Number of tooth
** Exist = by visual, at least plaque or calculus found in one site of tooth
***  Index Miyazaki; score 0 = not visible, score 1 = <1/3 surface of the tongue covered, score 2 = <2/3 surface of the tongue 

covered, and score 3 => 2/3 the surface of the tongue is covered.

a 

d c 

b 

 

f e 

a 

d c 

b 

 

f e 

a 

d c 

b 

g 

f e 

a 

d c 

b 

g 

f e 

a 

d c 

b 

g 

f e 

a 

d c 

b 

g 

f e 

a 

d c 

b 

g 

f e 

Figure 1. a. ROS level and systolic blood pressure. b. ROS level and diastolic 
blood pressure. c. ROS level and dental caries. d. ROS level and 
missing teeth. e. ROS level and tooth root. f. ROS level and tooth 
necrosis. g. ROS level and Miyazaki index.

 (IU/ml)  (IU/ml)

 (IU/ml) (IU/ml)

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.v50.i3.p111-115

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114 Nur’aeny, et al./Dent. J. (Majalah Kedokteran Gigi) 2017 September; 50(3): 111–115

Aging is simply the result of accumulative deteriorative 
processes such as oxidation.14 Biological functions 
gradually decline with age and may be due to one or more 
of the following factors: lifestyle, behaviour, diet, and 
environment.14 Oxidants or free radicals are generated 
internally as a result of normal intracellular metabolism 
in mitochondria and peroxisomes, as well as from a 
variety of cytosolic enzyme systems whereas, externally, 
ROS production is triggered by a certain agent within an 
indvidual’s lifestyle and/or environment.15 Aging is a natural 
and progressive process producing functional changes in the 
body due to aforementioned internal and external factors 
that might manifest themselves as a chronic condition such 
as hypertension. In this study, patients’ blood pressure 
largely fell within the mild category (systolic =140-159 
and/or diastolic= 90-99 mmHg). A test of the correlation 
between ROS and systolic blood pressure levels confirmed 
it to be negative (Figure 1) but there was a positive diastolic 
and ROS correlation (Figure 2). According to the study 
described here, ROS levels were within the lower range, 
this result being in line with the studies indicating that, 
in a mild hypertension condition, lipid peroxidation and 
oxidative stress levels are not increased.16,17

Oxidative stress promotes smooth vascular muscle 
cell proliferation, together with hypertrophy and collagen 
deposition leading to thickening of the vascular media and 
narrowing of the vascular lumen. In addition, increased 
oxidative stress may damage the endothelium and impair 
endothelium-dependent vascular relaxation and increase 
vascular contractile activity. All these effects on the 
vasculature may explain how increased oxidative stress 
can cause hypertension.18 This result confirmed all patients 
to have been well cared for as they had received routine 
monthly treatment from a health programme (chronic 
disease management program) at the Community Health 
Center,Ujung Berung, Bandung. Such treatment usually 
included the implementation of a dietary regime. The dietary 
approaches to ttop hypertension (DASH) study confirmed 
that the DASH diet, which was rich in vegetables, fruits 
and low-fat dairy products, low in fat, and including whole 
grains, poultry, fish and nuts, and lowered blood pressure.19 
Other results confirmed the correlation between ROS and 
diastolic levels in this study as positive. Although this study 
did not feature a complete data history of hypertension, 
the theory mentions the potential occurrence of this 
condition because ROS potentially results in hypertension 
by inducing vascular contraction (Figure 2).20 It is known 
that superoxide (ROS) rapidly deactivates endothelium-
derived nitric oxide (NO), the most important endogenous 
vasodilator, thereby promoting vasoconstriction.21

Intra-oral findings showed most cases to be dental 
caries, tooth loss, plaque/calculus, and tooth root. The 
correlation only produced positive and significant results 
for ROS and tooth loss, at p=0.028 (Figure 4). This possibly 
happened due to the presence of remnants of ROS related 
to previous infections or conditions triggering tooth loss, 
supported by the presence of plaque and calculus in all 
patients. This, in turn, meant that there were some forms 
of gingival inflammation (gingivitis or periodontitis) which 
induced increased ROS in tooth loss.22 Other conditions 
produced a negative correlation between ROS for dental 
caries and tooth necrosis, meaning that when dental caries 
and tooth necrosis decrease, the level of ROS increases. 
However, this condition requires further investigation 
involving a greater number of research subjects. Oral 
mucosa conditions also produced a coated tongue, a clinical 
condition in which a white yellowish layer forms on the 
dorsum of the tongue caused by the accumulation of food 
debris, microorganisms, desquamated epithelial cel/keratin, 
pigment, and mucus. Several factors are suspected of being 
associated with a coated tongue, including: chemotherapy, 
allergies, vitamin deficiency, radiation therapy, poor oral 
hygiene, salivary pH change, decreased salivary production, 
systemic disease, and drug consumption.14 Clinically, 
according to the Miyazaki index, the coated tongue of the 
majority of patients (7) registered a score of 2, signifying 
that the layer covered an area two-thirds the size of the 
posterior of the tongue. The t test result showed that the 
mean difference between ROS and the Miyazaki index 
was higher in a group with score 1 than score 2. The data 

Table 4.  Characteristics of patients and ROS level

 No. Age (years) Gender
ROS

level (IU/ml)

1. 64 Male 0.95

2. 60 Female 1.37

3. 69 Male 4.71

4. 73 Female 4,2

5. 65 Female 1,94

6. 73 Female 0.87

7. 77 Male 2.94

8. 73 Female 7.2

9. 73 Female 1.14

10. 62 Female 4.24

11. 64 Female 2.07

12. 64 Female 1.28

Figure 2. a. 1/3 coated section of the tongue; b. 2/3 coated 
section of the tongue 

11 
 

Figure 1a.ROS level and systolic blood pressure. 1b. ROS level and diastolic blood pressure. 1c.
ROS level and dental caries.
1d. ROS level and missing teeth.1e. ROS level and tooth root.1f. ROS level and tooth necrosis.1g.
ROS level and Miyazaki index.           

Figure 2a. 1/3 coated section of the tongue. 

g 

f e 

a b 

11 
 

Figure 1a.ROS level and systolic blood pressure. 1b. ROS level and diastolic blood pressure. 1c.
ROS level and dental caries.
1d. ROS level and missing teeth.1e. ROS level and tooth root.1f. ROS level and tooth necrosis.1g.
ROS level and Miyazaki index.           

Figure 2a. 1/3 coated section of the tongue. 

g 

f e 

a b 

a b

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.v50.i3.p111-115

http://e-journal.unair.ac.id/index.php/MKG
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115115Nur’aeny, et al./Dent. J. (Majalah Kedokteran Gigi) 2017 September; 50(3): 111–115

showed that all patients who recorded a score of 2 also 
presented considerable tooth loss, plaque, and calculus, 
thereby indicating poor oral hygiene and, probably, a soft 
diet resulting in the accumulation of debris on the tongue. 
Decreased salivary flow as physiologic changes occur in 
elderly might also influence the occurrence of a coated 
tongue.4 In this study, there was no oral manifestation related 
with antihypertension drugs, such as xerostomia, lichenoid 
reactions, burning mouth syndrome, or stomatitis.15 In 
conclusion, there was no correlation between the ROS level 
in the bloodstream and general oral conditions, except in 
the relationship between the ROS level in the bloodstream 
and tooth loss which had a positive correlation. 

acknowledgement

This study was supported by internal grant funding 
from Universitas Padjadjaran and thanks to the 
Dermatomusculoskeletal (DMS) study center of Faculty 
of Medicine Universitas Padjadjaran which has provided 
an opportunity for the implementation of this research.

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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.v50.i3.p111-115

http://e-journal.unair.ac.id/index.php/MKG
http://dx.doi.org/10.20473/j.djmkg.v50.i3.p111-115