|Year : 2020 | Volume
| Issue : 1 | Page : 11-16
Assessing dental caries and related factors in 12-year-old Nigerian school children: Report from a Southeastern State
Ezi Abigail Akaji1, Queen Uche Ikechebelu1, Obehi O Osadolor2
1 Department of Preventive Dentistry, Faculty of Dentistry, University of Nigeria, Enugu Campus, Nigeria
2 Department of Child Dental Health, University of Nigeria Teaching Hospital, Ituku, Enugu, Nigeria
|Date of Submission||30-Jun-2019|
|Date of Decision||30-Aug-2019|
|Date of Acceptance||17-Oct-2019|
|Date of Web Publication||02-Jan-2020|
Dr. Ezi Abigail Akaji
Department of Preventive Dentistry, Faculty of Dentistry, University of Nigeria, Enugu Campus, Enugu
Source of Support: None, Conflict of Interest: None
Background/Aim: Dental caries is one of the most common diseases in the world and a common health problem among children. The aim of this study was to assess dental caries and related factors using the Decayed Missing and Filled Teeth (DMFT), Significant Caries Index (SiC), Restorative and Met Need indices in 12-year-old schoolchildren in a Southeastern State of Nigeria. Materials and Methods: A cross-sectional descriptive study of 360 twelve year old students selected by multistage sampling method from four schools in Enugu. Sociodemographic and behavioral data on dietary and oral health-care practices were collected using questionnaires, followed by an intraoral examination of each participant in accordance with the WHO criteria to determine their individual DMFT. Total and mean DMFT were obtained. SiC, Restorative Index (RI), and Met Need Index (MNI) were calculated. Data analysis was performed using the SPSS version 20. P ≤ 0.05 were accepted as statistically significant. Results: The prevalence of caries was 54.4%. Mean SiC/DMFT ratios of private and public school participants were 2.29/0.78 and 2.83/1.59, respectively. A zero RI and 0.02 MNI values were observed for all participants. Twelve (6.9%) public schoolchildren did not brush every day, although nearly 100% of them consumed cariogenic diet regularly. Conclusion: Despite low DMFT, number of teeth with untreated caries mirrored by zero RI and MNI values was high. Unhealthy dietary habits, suboptimal oral hygiene practices, and possibly lack of perception of gravity of caries were key influential factors. Efforts should be geared toward bridging these gaps through effective prevention program in schools.
Keywords: 12 years old, decayed missing and filled teeth, dental caries, significant caries index
|How to cite this article:|
Akaji EA, Ikechebelu QU, Osadolor OO. Assessing dental caries and related factors in 12-year-old Nigerian school children: Report from a Southeastern State. Eur J Gen Dent 2020;9:11-6
|How to cite this URL:|
Akaji EA, Ikechebelu QU, Osadolor OO. Assessing dental caries and related factors in 12-year-old Nigerian school children: Report from a Southeastern State. Eur J Gen Dent [serial online] 2020 [cited 2020 Jan 27];9:11-6. Available from: http://www.ejgd.org/text.asp?2020/9/1/11/274672
| Introduction|| |
Oral diseases, especially dental caries are major health problems globally. Dental caries affects both sexes, all races, all socioeconomic ranks, and all age groups and continues to be a universal health problem among children., In developing countries, changes in living conditions due to urbanization and adoption of Western lifestyles are often considered potential risk factors for the incidence of caries. In recent years, its prevalence and severity in most industrialized countries have declined substantially unlike what has been attained in developing countries of sub-Saharan African region. Reasons proffered for this disparity include changes in dietary habits and inadequate exposure to fluorides in developing countries and preventive oral health care programs adopted in the industrialized environs. Dental caries restrict activities in school and at home causing millions of school hours to be lost annually worldwide. Moreover, the psychosocial impact of this disease often significantly diminishes quality of life. For children in particular, dental caries not only causes pain and discomfort, it interferes with food intake affecting physical development in the form of malnutrition. It also affects ability to communicate and learn; school attendance and academic performance; and places a financial burden on the parents.
In 2003, Hobdell et al. developed the new global goal for oral health 2020 for the promotion of oral health globally. One of its targets for dental caries is to reduce the Decayed Missing Filled Teeth (DMFT), particularly the D component at age 12 years by a defined percent with special attention to high-risk groups within populations. According to the World Health Organization (WHO), the prevalence of dental caries among school-aged children is estimated to be as high as 60%–90% in some countries. Studies confirm that low social class increases the risk of developing high levels of dental caries. Parents' low educational level and professional situation (employed/unemployed) also play an important role in the child/adolescent oral health status.,, A study conducted among school children aged 8–12 years in Pakistan reported a caries prevalence of 90%. The prevalence of dental caries was higher between students belonging to family having less income and lower between students belonging to family having high income. A report from the United Arab Emirates on 12-year-old age group found DMFT ranging from 1.6 to 3.24. National Oral Health Survey in India reported caries prevalence of 51.9% at the age of 5 years, 53.8% at 12 years, and 63.1% at 15 years, respectively.
In Africa, caries prevalence and mean DMFT are low compared to industrialized countries with mean DMFT among 12-year-old school children between 0.5 and 2.6. Caries prevalence in Nigeria varies between 4% and 40% and mean DMFT/dmft between 0.5 and 3.5.,, The prevalence increases with age, higher in urban than in rural population and more in private than in public schools. A study conducted among secondary school children (11–16 years old) residing in a rural community in Enugu State reported a mean DMFT of 0.85 ± 1.50 with caries prevalence of 35.5%. These values were higher than those from an earlier study in an urban community in Enugu, where a caries prevalence was 24.1% and DMFT was 0.45 ± 0.53.
A summary of reports from some similar studies on the prevalence of dental caries and DMFT among 12 years old in other parts of the country and the world is shown in [Table 1].
|Table 1: Decayed missing and filled teeth and significant caries index of 12-year-olds from some similar studies|
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Although reports of DMFT studies abound, those highlighting Significant Caries Index (SiC), Restorative Index (RI), and Met Need Index (MNI) are rare in our environment. Hence, the aim of this study was to assess dental caries and related factors in 12-year-old school children in Enugu, Southeastern, Nigeria using DMFT, SiC, RI, and MNI while exploring the role of the health belief model (HBM) on their attitude and behavior toward oral health.
| Materials and Methods|| |
Study design and protocols
A cross-sectional descriptive study involving junior students of four Secondary schools selected by simple random method from the list of Secondary schools in Enugu. Ethical clearance was gotten from the Committee for Research and Ethics, University of Nigeria Teaching Hospital, Enugu. Permission was obtained from the School Authorities and the children's caregivers. With assured confidentiality, all participants gave verbal consent in accordance with the principles outlined in the Declaration of Helsinki. Children also benefitted from a free dental examination carried out.
sample size determination and selection
Sample size was determined using the formula:
Where n is the minimum sample size; p is the proportion of children with dental caries estimated to be 35.5% from a previous study; z = 1.96 at 95% confidence interval; e is degree of precision (5%), and nonresponse rate of 2% was factored in. This yielded a total of 359.04 which was rounded off to 360. From the lists of private and public Secondary schools in Enugu metropolis obtained from the State Ministry of Education, we selected 2 public and 2 private schools by simple random sampling. Ninety 12-year-old schoolchildren were selected from Junior Secondary School Classes 1 and 2 in each school by simple random sampling to make up the 360.
Data collection and analysis
Data were collected within a 3-month period; sociodemographic and behavioral data on dietary and oral health-care practices were obtained using questionnaires. An intraoral examination using blunt dental probe and plane mirror to determine the individual Decayed Missing and Filled Teeth (DMFT] was carried out with each participant seated on a chair using natural daylight for illumination and following WHO criteria for epidemiological studies. Teeth were considered carious when there was visual and/or tactile evidence of a carious lesion. Early stages of dental caries were excluded, and teeth with questionable lesions were considered as sound.
Total and mean DMFT was obtained for the study population; SiC, RI and MNI were calculated. The SiC index is the mean DMFT of one-third of the participants with the highest DMFT scores. RI is the ratio of filled teeth to the total filled, and decayed teeth (F/F+D) percent and the MNI represents the ratio of missing and filled teeth to total decayed, missing, and filled teeth (M + F/DMF) percent.
Data analysis was carried out using the Statistical Package for the Social Sciences (SPSS version 20 Inc. Chicago IL, USA) and Microsoft Excel. All children who needed dental treatment were referred to the Dental clinic of a nearby Teaching Hospital.
| Results|| |
Three hundred and sixty 12-year-old participated in this study; 226 (62.8%) males and 134 (37.2%) females. [Table 2] shows the gender distribution and consumption of cariogenic food according to their school type. The timing and frequency of tooth-brushing are captured in [Table 3], with 12 (6.9%) students in public school reporting not brushing every day. The oral hygiene activities undertaken by the participants after consuming sugary food and snacks are shown in [Figure 1]; 42.2% of the public school students did not brush nor rinse their mouth after such exercise.
|Table 2: Gender distribution and consumption of cariogenic food by participants according to school type|
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|Figure 1: Oral hygiene activity of the respondents. 53.5% of private school children at least rinse their mouth after consumption of sugar containing and food. 42.2% of public school children neither brush nor rinse mouth|
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A total of 294 (70.7%) permanent first molars were decayed; 236 (56.7%) of all the decay occurred in the mandible, and there was no filled tooth [Table 4]. The overall prevalence of caries was 54.4%; mean SiC/DMFT of private and public school participants were 2.29/0.78, and 2.83/1.59, respectively. Males had higher DMFT, but lower SiC value than females and the overall mean DMFT was 1.17 ± 0.27 [Table 5]. The MNI value for all the participants was 0.02 given that six first permanent molars had been previously extracted due to caries. The RI value was zero for all categories.
|Table 4: Decayed, Missing, and Filled Teeth of the participants according to tooth type and jaw|
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|Table 5: Decayed, Missing, and Filled Teeth, significant caries index, restorative index, and met need index values of the participants|
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| Discussion|| |
This study provides information on the prevalence of dental caries and oral health behavior in a representative sample of 12 years old in Enugu, an urban population in the South-Eastern part of Nigeria. The study was centered on 12-year-old children since the age is acknowledged by WHO as a global monitoring age for dental caries for international comparisons and monitoring of disease trend. Participants in this study comprised school children from both government and private schools to give a balanced overview from all the social, economic, and cultural communities that would provide a true picture of the caries condition in the population studied.
The prevalence of dental caries in the study population was 54.4% which is considerably high when compared with the past studies carried out in the same city , and other parts of the country., The higher caries prevalence in the present study could be due to sampling variations and possibly, an increased caries occurrence since the time the earlier studies in the same setting were conducted. Overall mean DMFT value fall within the WHO's low category corroborating other studies in our environment.,,,, Relativity (ratio) of SiC index to DMFT was more pronounced in the private than the public school children buttressing the fact that individuals in private school had lower DMFT scores than their public school counterparts as captured in our data. The obtained ratio is at par with what was found by some foreign studies listed in [Table 1].,,,
Furthermore, the values of the RI and MNI in the present study were worrisome as they portray the proportion of the disease that has been treated. The zero RI value for both private and public school children and the negligible overall MNI similar to reports from Ibadan, Nigeria  may be reflections of poor access to health care which is a function of level of awareness coupled with financial constraints that affect demand and utilization of oral health care.,
Another observation made in this study was that decayed component constituted the major part of caries index reinforcing lack of knowledge, awareness, and motivation toward their oral health. First permanent molars were mostly affected; their early eruption compared to other molars predisposes them to longer exposure to refined carbohydrates. Furthermore, teeth in lower jaws were more affected than the maxillary teeth. Braimoh et al., had attributed this to significant plaque accumulation, stagnation point for food and debris, and faster progression of caries in the mandibular teeth. However, this calls for further investigations that will relate eruption times with caries development and progression in a similar population.
Considering the disparity in DMFT of public school children (1.59) as against that of private school (0.78) despite comparable consumption of cariogenic diet, we were of the opinion that their tooth-brushing habit and other oral hygiene activities were key contributing factors. While 8.6% of private school attendees brushed their teeth twice daily, 6.9% of public school children did not brush every day [Table 3] and 42.2% neither rinsed nor brushed their mouth after consumption of cariogenic food [Figure 1]. These preventive habits adopted by some of the private school children compared to their public school counterparts may have mitigated the potential damage from frequent high sugar consumption.
At the backdrop of exploring HBM, participants in this study may not have perceived tooth decay as a serious illness requiring medical help evidenced by the number of untreated decayed teeth. Perhaps, due to the absence of pain or discomfort arising from caries at the time of the study, the cue to seek dental check-up and/or treatment was lacking. Furthermore, it could be that the children had little knowledge of the causes of dental caries as alluded to in a previous study where older students had little knowledge of the causes of dental diseases. The HBM has been used to develop effective interventions on health-related behaviors, with the aim of increasing perceived susceptibility to and perceived seriousness of a health condition by providing education on the prevalence and incidence of the disease. The role of sociobehavioral and environmental factors in oral diseases, particularly dental caries formation cannot be overemphasized. Hence, regular oral health education in schools may bridge the gap between oral health knowledge and behavior in attaining good oral health and at the same time, increase the motivation to reduce untreated tooth decay in this significant age group. More so, schools remain a fertile environment to provide effective oral health education to children as indirectly, families and community members can be reached. Despite the limitation of recall bias which may characterize the information gotten from self-reported oral health care and dietary practices, results obtained in this study could serve as a tool for quantifying and tackling dental caries in this population.
| Conclusion|| |
Although, the mean DMFT was low, number of untreated dental caries was very high as reflected in zero RI and very low MNI. Efforts should be geared toward bridging the gaps. Therefore, oral health promotion in schools to teach these students the importance of oral hygiene, and the need to utilize oral health care services is recommended. Second, oral health examination should be carried out on the students by trained personnel at the beginning or end of each term to forestall the inception or detect early carious lesions.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Bagramian RA, Garcia-Godoy F, Volpe AR. The global increase in dental caries. A pending public health crisis. Am J Dent 2009; 22:3-8.
Denloye O, Ajayi D, Bankole O. A study of dental caries prevalence in 12-14 years old school children in Ibadan, Nigeria. J Paediatr Dent 2005;15:147-51.
Al-Samadani KH, Ahmad MS, Bakeer HA, Elanbya MG. Oral health knowledge and practice among 9-12-year-old schoolchildren in the region of Madinah, Saudi Arabia, and its impact on the prevalence of dental caries. Eur J Gen Dent 2017;6:54-8. [Full text]
Petersen PE, Lennon MA. Effective use of fluorides for the prevention of dental caries in the 21st
century: The WHO approach. Community Dent Oral Epidemiol 2004;32:319-21.
Nakre PD, Harikiran AG. Effectiveness of oral health education programs: A systematic review. J Int Soc Prev Community Dent 2013;3:103-15.
Bansal R, Sharma S, Shukla AK, Parashar P, Singh D, Varshney AM, Ahmad S. Prevalence of dental caries among school children in Meerut. Asian Pac J Health Sci2015;2:84-8
Hobdell M, Petersen PE, Clarkson J, Johnson N. Global goals for oral health 2020. Int Dent J 2003;53:285-8.
Petersen PE, Bourgeois D, Ogawa H, Estupinan-Day S, Ndiyae C. The global burden of oral diseases and risks to oral health. Bull World Health Organ 2005;83:661-9. Available from: https://apps.who.int/iris/handle/10665/73285
. [Last accessed on 2019 Jun 14].
Van den Branden S, Van den Broucke S, Leroy R, Declerck D, Hoppenbrouwers K. Oral health and oral health-related behaviour in preschool children: Evidence for a social gradient. Eur J Pediatr 2013;172:231-7.
Peres MA, de Oliveira Latorre Mdo R, Sheiham A, Peres KG, Barros FC, Hernandez PG, et al.
Social and biological early life influences on severity of dental caries in children aged 6 years. Community Dent Oral Epidemiol 2005;33:53-63.
Roberts K, Condon L. How do parents look after children's teeth? A qualitative study of attitudes to oral health in the early years. Community Pract 2014;87:32-5.
Sahito N, Sahito MA, Fazlani KA. Prevalence of dental caries among school children in Hyderabad Pakistan. Int J Appl Sci Res Rev 2015;26:34-8.
Al-Bluwi GS. Epidemiology of dental caries in children in the United Arab Emirates. Int Dent J 2014;64:219-28.
Ingle NA, Dubey HV, Kaur N, Gupta R. Prevalence of dental caries among school children of Bharatpur city, India. J Int Soc Prev Community Dent 2014;4:52-5.
World Health Organization. The World Oral Health Report 2003. Geneva, Switzerland: World Health Organization; 2003.
Okeigbemen SA. The prevalence of dental caries among 12 to 15-year-old school children in Nigeria: Report of a local survey and Campaign. Oral Health Prev Dent 2004;2:27-31.
Okoye LO, Chukwuneke FN, Akaji EA, Folaranmi N. Caries experience among school children in Enugu, Nigeria. Int J Med Health Dev 2010;15:17-23. [Full text]
Umesi-Koleoso DC, Ayanbadejo PO, Oremosu OA. Dental caries trend among adolescents in Lagos, South-West Nigeria. West Afr J Med 2007;26:201-5.
Okoye L, Ekwueme O. Prevalence of dental caries in a Nigerian rural community: A preliminary local survey. Ann Med Health Sci Res 2011;1:187-95.
] [Full text]
Udoye C, Aguwa E, Chikezie R, Ezeokenwa M, Jerry-Oji O, Okpaji C. Prevalence and distribution of caries in the 12-15 years urban school children in Enugu. Int J Dent Sci 2008;7:2. Available from: http://ispub.com/IJDS/7/2/1189
. [Last accessed on 2019 Apr 04].
Adekoya-Sofowora CA, Nasir WO, Oginni AO, Taiwo M. Dental caries in 12-year-old suburban Nigerian school children. Afr Health Sci 2006;6:145-50.
Agbelusi GA, Jeboda SO. Oral health status of 12-year-old Nigerian children. West Afr J Med 2006;25:195-8.
Braimoh OB, Umanah AU, Ilochonwu AN. Caries distribution, prevalence, and treatment needs among 12–15-year-old secondary school students in Port Harcourt, Rivers state, Nigeria. J Dent Surg 2014. p. 6. 23. Available from: http://dx.doi.org/10.1155/2014/483760
. [Last accessed on 2019 Apr 04].
Cypriano S, Hoffmann RH, de Sousa Mda L, Wada RS. Dental caries experience in 12-year-old schoolchildren in Southeastern Brazil. J Appl Oral Sci 2008;16:286-92.
Nurelhuda NM, Trovik TA, Ali RW, Ahmed MF. Oral health status of 12-year-old school children in Khartoum state, the Sudan; a school-based survey. BMC Oral Health 2009;9:15.
Shafiezadeh N, Soleimani F, Mokhtari S, Askarizadeh N, Fatehi R. Dental status and DMFT index in 12 year old children of public care Centers in Tehran. Iran Rehabil J 2011;9:51-4.
Gökalp SG, Doǧan BG, Tekçiçek MT, Berberoǧlu A, Unlüer S. National survey of oral health status of children and adults in Turkey. Community Dent Health 2010;27:12-7.
Vizzotto D, Paiano HM, Rudey AC, Lovera AK, Hagemann P, Gazolla T. DMFT index of 12 year-old students of public schools participating in the project of education for working for health. RSBO 2013;10:245-51.
Bhayat A, Ahmad MS. Oral health status of 12-year-old male schoolchildren in medina, Saudi Arabia. East Mediterr Health J 2014;20:732-7.
Ndanu TA, Aryeetey R, Sackeyfio J, Otoo G, Lartey A. Oral hygiene practices and caries prevalence among 9-15 years old Ghanaian School children. J Nutr Health Sci 2015;2:104.
Elias-Boneta AR, Toro MJ, Rivas-Tumanyan S, Murillo M, Orraca L, Encarnacion A, et al.
Persistent oral health disparity in 12-year-old Hispanics: A cross-sectional study. BMC Oral Health 2016;16:10.
Poudyal S, Rao A, Shenoy R, Priya H. Dental caries experience using the significant caries index among 12 year old school children in Karnataka, India. Int J Adv Res 2015;3:308-12.
Andegiorgish AK, Weldemariam BW, Kifle MM, Mebrahtu FG, Zewde HK, Tewelde MG, et al.
Prevalence of dental caries and associated factors among 12 years old students in Eritrea. BMC Oral Health 2017;17:169.
Riatto SG, Montero J, Pérez DR, Castaño-Séiquer A, Dib A. Oral health status of Syrian children in the refugee center of Melilla, Spain. Int J Dent 2018;2018:2637508. doi: 10.1155/2018/2637508.
Araoye MO. Research Methodology with Statistics for Health and Social Sciences. 1st
ed. Ilorin: Nathadex; 2003. p. 117-21.
World Health Organization. Oral Health Surveys-Basic Methods. 5th
ed. Geneva, Switzerland: World Health Organization; 2013.
Daly B, Batchelor PA, Treasure ET, Watt RG. Essential Dental Public Health. 2nd
ed. Oxford: Oxford University Press; 2013.
Akaji EA, Uguru NP, Maduakor SN, Ndiokwelu EM. Using community participation to assess demand and uptake of scaling and polishing in rural and urban environments. BMC Oral Health 2018;18:80.
Akaji EA, Oredugba FA, Jeboda SO. Utilization of dental services among secondary school students in Lagos-Nigeria. Nig Dent J 2007;16:87-91.
Ndiokwelu E. Applicability of rosenstock-hochbaum health behaviour model to prevention of periodontal disease in Enugu students. Odontostomatol Trop 2004;27:4-8.
Redding CA, Rossi JS, Rossi SR, Velicer WF, Prochaska JO. Health behavior models. Int Electron J Health Educ 2000;3:180-93. Available from: http://www.iejhe.siu.edu
. [Last accessed on 2019 Jun 14].
Modak AR, Desai M. Prevalence of dental caries and designing the interventional strategies for school children in rural Konkan region. Walawalkar Int Med J 2017;4:35-40.
[Table 1], [Table 2], [Table 3], [Table 4], [Table 5]