Year :
2023
| Month :
January
| Volume :
17
| Issue :
1
| Page :
LC01 - LC05
Full Version
Oral Morbidity Pattern and its Behavioural Determinants among Adults of Urban Slums of Siliguri, India
Published: January 1, 2023 | DOI: https://doi.org/10.7860/JCDR/2023/61054.17352
Sasthi Narayan Chakraborty, Kaushik Ishore, Subhasis Mukherjee, Sharmistha Bhattacherjee, Rakesh Kumar
1. Associate Professor, Department of Community Medicine, Santiniketan Medical College, Bolpur, West Bengal, India.
2. Associate Professor, Department of Community Medicine, MJN Medical College, Coochbehar, West Bengal, India.
3. Associate Professor, Department of Physiology, Santiniketan Medical College, Bolpur, West Bengal, India.
4. Associate Professor, Department of Community Medicine, North Bengal Medical College, Siliguri, West Bengal, India.
5. Professor, Department of Community Medicine, IQ City Medical College, Durgapur, West Bengal, India.
Correspondence Address :
Dr. Sasthi Narayan Chakraborty,
Associate Professor, Department of Community Medicine, Santiniketan Medical College, Bolpur-731204, West Bengal, India.
E-mail: dr.sasthi@gmail.com
Abstract
Introduction: Understanding oral health and not merely dental health are becoming priorities as mouth often offers first sign and symptoms of many localised and systemic diseases. Like any other urban slums, Siliguri slum peoples were also prone for many illnesses and oral health was a different concern because offering areca nut with betel leaves to guests was a common practice in that particular area.
Aim: To find out oral morbidity pattern among study subjects and to ascertain few behavioural determinants of oral morbidity.
Materials and Methods: The present community based cross-sectional study was performed in slums of Siliguri city, West Bengal, India, from January 2017 to January 2019. As Siliguri is a large city with more than five lakh population and 154 slums, cluster sampling was adopted to choose samples from each cluster slum. Total 210 samples were studied derived from World Health Organisation (WHO) sample size formula and applying principles of 30 cluster sampling and data regarding socio-demographic profile, behaviour details and clinical history and examination was collected via self-structured, pretested schedule. Results were analysed in Statistical Package for the Social Sciences (SPSS) version 20.0 software and was presented in frequency tables, Chi-square test was applied for testing statistical significance.
Results: Out of 210 study subjects, 154 of them (73.3%) had any form of oral morbidities, 136 study subjects (64.8%) had dental morbidities. Bleeding was commonest symptom for 96 study subjects (62.3%). A total of 59 study subjects (28.1%) had irregular brushing habit and 132 subjects (62.9%) did not wash their mouth after each major meal. A total of 94 subjects (44.8%) had the habit of any form addiction.
Conclusion: Adult slum dwellers of Siliguri reported a huge proportion of oral morbidities, majority of which was dental morbidities, irregular brushing habit, lack of mouthwash after meal and addiction were associated with oral morbidities.
Keywords
Addiction, Cluster sampling, Dental morbidity, Habits, Siliguri municipal corporation
Introduction
Oral health is a key indicator of overall health, well-being and quality of life. It encompasses a range of diseases and conditions that include dental caries, periodontal (gum) disease, tooth loss, oral cancer, oro-dental trauma, noma and birth defects such as cleft lip and palate (1). Standard of oral health enables an individual to eat, speak and socialise without active disease, discomfort or embarrassment and which contributes to general well-being (2). The term “Oral” refers to the whole mouth-the teeth, gums, hard and soft palate, linings of the mouth and throat, tongue, lips, salivary glands, chewing muscles, and upper and lower jaws. Oral cavity is intimately related to the health of the rest of the body and often is the first signs of problems elsewhere in the body such as infectious diseases, immune disorders, nutritional deficiencies, and cancer (3),(4). Oro-facial pain, a condition itself and as a symptom of untreated dental and oral problems, is a major source of diminished quality of life. Considering the importance of the mouth and teeth in verbal and non verbal communication, diseases that disrupt their functions are likely to damage self-image and alter the ability to sustain and build social relationships (5). Studies have shown that health behaviours like tobacco and alcohol use, sedentary lifestyle, general hygiene habits and diet were major risk factors to chronic disease (6) and may also be linked to oral health (7),(8),(9). Any deviation from the normal oral health condition leads to morbidity of oral region and reasons for that may be single or multifactorial. Major risk factors for oral morbidity or ill health or poor oral health are improper diet and nutrition, poor oral hygiene, tobacco and alcohol abuse, injury, infections, precancerous and cancerous lesions etc.,
Worldwide, 60-90% of school children and nearly 100% of adults have dental cavities (10). It’s prevalence in India (11), is 50-60%. Severe periodontal (gum) disease, which may result in tooth loss, is found in 15-20% of middle-aged (35-44 years) adults (10). Complete loss of natural teeth is widespread and particularly affects older people. An older study on Siliguri slum people showed overall prevalence of dental caries was found to be 57.47% (12) but the situation may get worse if we look for futuristic phenomena predicted by WHO, that oral health conditions will increase by 25% over the next decade (13).
Siliguri, a connecting city of North-Eastern India, is part of ritual of offering areca nut with betel leaves to guests which could make oral health a concern. A compact study was much needed in that area that would include all aspects of oral health, not merely dental health as because this type of study was still deficient, particularly in the underprivileged population like slum people.
Thus, the study was conducted to gather data regarding variation of disease prevalence and association so that health policy makers can implement region specific strategy to cop oral health problem. This study was conducted among adult population of Siliguri slums to find out the oral morbidity patterns, also to ascertain few behavioural determinants of oral morbidity.
Material and Methods
A community based cross-sectional study was undertaken in urban slums of Siliguri. Siliguri is a municipal corporation (SMC) of West Bengal, having the population of 5,13,264 (14), and have 154 slums with 1,75,411 slum population (by indigenous survey by SMC). Siliguri is a connecting city of north-eastern India, connects districts of West Bengal, also connects few states (Bihar, Assam, Sikkim) and even few countries (Nepal, Bhutan, Bangladesh) to West Bengal. Study was performed from January 2017-January 2019 after obtaining ethical clearance from Institutional Ethics Committee (IEC) of North Bengal Medical College, IEC reference no dated 1/08/2016.
Inclusion criteria: Permanent resident of Siliguri slums, aged 18 years or more, having a valid government identity card were included in the study.
Exclusion criteria: Subjects with severe systemic illness were excluded from the study.
Sample size calculation: According to WHO global burden of diseases report 2008, prevalence of dental caries was 50% (11). As dental caries is one of the important diseases in relation to oral morbidity, taking its prevalence, sample size was determined by the formula (15).
{Z2(1-α/2) PQ}/L2
Thus, the sample size=(3.84*50*50)/(10*10)=96.
As sampling technique was cluster sampling, the sample size had been multiplied by two as design effect. Thus, the sample size came to be 96*2=192. As the 30 cluster was taken into account, number of study subjects per cluster was 192/30=6.4. So, seven samples had been taken from each cluster slum to make the sample representative one.
Study Procedure
To select 30 cluster slums from 154 slums a complete list of 154 slums with name, population and cumulative population was made first. Sampling interval was derived from dividing total slum population by 30. Total slum population of Siliguri was 1,75,411. So, sampling interval came to be (1,75,411)/30=5848. Next step was to take a random number that valued less than equals to sampling interval. Random number was chosen by random number table and it came to be 5000. That first cumulative frequency which contained random number (5000) was the first cluster. Then sampling interval was added with the random number to find out next cluster and for the consecutive times sampling interval was added with previous count to find out all the remaining clusters. Next step was to draw seven study subjects from each cluster. In each cluster, a landmark was chosen from where right-sided path was taken. Samples were taken from consecutive houses. Only one sample was taken from each house. In case of more eligible study subjects in a house, study subject was chosen by simple random sampling technique. When there was no availability of study subject in a house or refusal to give consent, next house was taken to draw study subject. In that way, seven study subjects were chosen from each cluster with no chance of drop out/non response.
Data was collected in a self-structured, pretested schedule. The questionnaire/schedule was made by reviewing related literature and by consensus of experts from Department of Community Medicine, Physiology and Oral Pathology (Dentist). The schedule was divided in three parts i.e., socio-demographic profile, behaviour details and clinical history and examination. The schedule was validated first, then gone through a pilot study on the 30 samples of same sampling frame. After few rectifications, final data collection took place. Pilot study samples were not included in the final sample. Total 21 questions were drafted in English. As it was a schedule and data was collected by investigators themselves (Along with Expert dentist of NBDC) at site and face to face, no issue raised, and questions were asked in local language (Bengali, Hindi, Nepali wherever applicable). Data filled up required both interview and clinical examination (face to face) simultaneously as per the study need after gaining verbal informed consent from subjects. SMC health workers helped us to reach destination.
Statistical Analysis
Data set was put into IBM SPSS (SPSS 20 Chicago Inc.) data sheet and was analysed by IBM SPSS 20 software. Results were presented by applying principles of descriptive statistics in form of frequency and percentage in tables. At 95% CI, significance was set at p-value <0.05. Besides frequency and percent distribution, Chi-square test was applied to test the level of significance.
Results
A total of 210 study subjects were studied within a period of two years from 154 slums of Siliguri city. Males were more (56.2%) than females, young adults (20-39 years) and middle age group (40-59) peoples were more among study samples i.e., 46.7% and 38.1%, respectively. Hindu comprised of 71% of study population and most of the study subjects were unskilled workers (36.7%). Unemployment proportion was surprisingly very low (1.5% only). Fifty-one percent (51%) of the study population were having primary education. Joint family were the most (53.8%) among different family type. Majority of the study population belonged to Class III socio-economic status (32.8%) as per modified Dr BG Prasad scale (Table/Fig 1).
A total of 154 study subjects (73.3%) were suffering from any oral morbidities. Study also showed that 64.8% of the subjects had oral morbidities with involvement of teeth (i.e., dental morbidities) whereas 16.7% with involvement in oral mucosa (i.e., oral mucosal morbidities) and only 9% had involvement in tongue (i.e., tongue morbidities) (Table/Fig 2). Out of 154 oral morbidity patients, commonest presenting symptom was bleeding (62.3%), followed by pain (47.4%), swelling (31.8%) etc., (Table/Fig 3).
Prevalence of dental caries in study population was 39.5% whereas periodontal disease was 64.3% and malocclusion of teeth was 26.2%. Most prevalent oral mucosal diseases among the study population were ulcer 7.1%, abscess 5.2% and leukoplakia 3.3%. The study also revealed most prevalent tongue diseases was candidiasis 5.2% (Table/Fig 4).
A 28.1% of the study population had irregular brushing habit of their teeth and 62.9% of the study population did not wash their mouth after each major meal. Interestingly, 44.8% of the study population had the habit of any form addiction (Table/Fig 5).
Oral morbidities were significantly higher p-value <0.001 in the study population who did not brush regularly. Oral morbidities were also significantly higher (p-value=0.045) who did not wash mouth after each major meal. Study subjects having any form of addiction also revealed significantly higher p-value <0.001 oral morbidities (Table/Fig 6).
Discussion
A total of 210 study subjects interviewed and were examined to find out oral morbidity pattern and to ascertain few behavioural determinants among adult slum dwellers of Siliguri, which revealed that overall prevalence of oral morbidity was found to be 73.3%, which was almost 3/4th of the study population. A very recent study by Ghosal S et al., showed even more prevalence in Indian background (16). Most probable reason of much higher prevalence by the later study was it only included ≥45 year age group. Commonest presenting symptom was bleeding (62.3%) which was far low than a study by Jürgensen N and Petersen PE which revealed prevalence of gingival bleeding was 99% (17). Next commonest presenting symptom was pain (47.4%) which was very close with a study by Jiang H et al., which revealed 41% had experienced toothache or symptoms during the previous 12 months (18).
Prevalence of dental caries of the study was 39.5% which was far low in comparison to other studies. Study conducted by Shah N showed prevalence of dental caries in India is 50%-60% (11). WHO also reports caries prevalence in school age children at 60-90% and as virtually universal among adults in the majority of countries (19). A study by Chakraborty M et al., of same geographic location also revealed high prevalence of dental caries (12). Comparatively low prevalence of dental caries may be due to improved oral health status and awareness among slum population of Siliguri. Prevalence of periodontal disease was 64.3% which was higher than studies by different authors. According to WHO, severe periodontal (gum) disease, which may result in tooth loss, was found in 15-20% of middle-aged (35-44 years) adults (11). High prevalence might be due to inclusion of all adults even the geriatric age group also. Prevalence of malocclusion of teeth was 26.2% which was close to a Text book by Taneja DK who reported prevalence of malocclusion among children was found to be 30% (20). Study finding of leukoplakia was consistent with many study results where it was found that annual incidence of oral leukoplakia was reported as 0.2% to 11.7% in different populations of India (21),(22). Results on erythroplakia (1.9%) in the study was higher in comparison with a study conducted Reichart PA and Philipsen HP which revealed prevalence of oral erythroplakia was 0.2%, that ranged between 0.02% and 0.83% (23). Higher prevalence of erythroplakia was due to more use of smokeless and smoking tobacco (addiction) among study subjects as it is a well-established fact that use of tobacco causes erythroplakia (23). Prevalence of oral ulcer and candidiasis was high and prevalence of trauma was low in comparison with a study conducted by Inamdar IF et al., which revealed prevalence of ulcer, candidiasis and trauma was 5.71%, 0.68% and 8.21%, respectively (24). Prevalence of oral submucosal fibrosis (0.5%) was consistent with a study conducted by Phatak A that revealed overall prevalence rate in India to be about 0.2-0.5 % (25). Prevalence of lichen planus (0.5%) in this present study was very low in comparison to a study conducted by Bokor-Bratie M and Picuric I which revealed overall prevalence of lichen planus was 1.6% (26). Geo-cultural variation might be responsible most probably.
Majority of the study subjects (71.9%) had regular brushing habit. Proportion of regular brushing was far more than a similar type of study conducted by Abdulla HA (27). A well-known fact that regular brushing of the teeth and gums from an early age with a fluoride toothpaste will help prevent tooth decay and periodontal disease (28). This study also revealed that proportion of study population who used to brush regularly had less proportion of oral morbidities (63.6%), whereas oral morbidities were as high as 98.3% among those who used to brush irregularly. Distribution was found to be statistically significant (p-value <0.001).
A 62.9% of the study population did not to wash their mouth after each major meal which was low in comparison with a study conducted by Inamdar IF et al., (24). Proportion of study population who used to wash mouth after each major meal had oral morbidities of 65.4% whereas it was as high as 78% among those who not used to wash mouth after each major meal. Distribution was found to be statistically significant (p-value=0.045). A web article stated to rinse mouth with water after every food/meal (29). Water neutralises the effects of acidic and sugary foods. Rinsing removes food particles left behind on/between the teeth and thus will prevent cavities. So, it is a well-established fact that washing mouth after meal dislodges retained food particles inside the mouth and thus prevents bacterial colonisation and improves oral hygiene. Bad oral health after irregular mouthwash after each meal resulted more oral morbidities in the present study.
It is a well-known fact that addiction leads to bad oral hygiene which leads to oral morbidities. Combined use of alcohol and tobacco exert a synergistic effect that substantially increases the risk for many oral diseases (30). Addiction especially due to tobacco causes many oral mucosal changes and diseases (31),(32),(33),(34). Present study also showed similar findings i.e., 98.9% study population having any form of addiction were suffering from oral morbidities, chi-square test revealed that distribution was statistically significant (p-value <0.001).
Limitation(s)
Though cross-sectional study is not a best way of determining oral morbidity, binary logistic regression could have taken place to ascertain behavioural determinants after inclusion of few more behavioural habits like material used for brushing, type of toothpaste, different addictive agents and their duration of use etc.
Conclusion
Adult slum dwellers of Siliguri reported a substantial proportion of oral morbidity. Dental morbidity was commonest among those three oral parts; however, it was less than comparative studies. Bleeding from any site was commonest symptom of oral morbidities. Irregular brushing of teeth, lack of mouthwashing after each major meal and any form of addiction were associated with oral morbidities.
Acknowledgement
Sincere thanks to all SMC health workers, Dental expert team of North Bengal Dental College , Siliguri, West Bengal, India.
Reference
| 1. | World Health Organisation. Health topics/Oral Health. Available on: https://www. who.int/health-topics/oral-health#tab=tab_1(last accessed on 1st Oct 2022).
| 2. | Department of Health. An Oral Health Strategy for England. London: Department of Health; 1994. Last accessed on 15th January 2019.
| 3. | Solemdal K. Oral health, taste and nutrition in hospitalized older people. In: Oral health, taste and nutrition in hospitalized older people. Oslo: University of Oslo. 2012;14. Available on: https://www.duo.uio.no/bitstream/handle/10852/34966/dravhandlingsolemdal.pdf?sequence=1 (Last accessed on 15th September 2022).
| 4. | Burden of oral disease. Michigan Department of Community Health. Michigan. 2006. Available on: http://www.michigan.gov/documents/OHBurdenDraft_135603_7.pdf. (Last accessed on 15th January 2020).
| 5. | DeLong L, Burkhart N. General and Oral Pathology for the Dental Hygienist. 2nd edn. Philadelphia. Lippincott Williams & Wilkins; 2013: Pp. 4.
| 6. | World Health Organization. The World Health Report 2002. Reducing risks, promoting healthy life. Geneva: World Health Organization; 2002. Last accessed on 16th January 2021.
[ CrossRef] [ PubMed] | 7. | Reibel J. Tobacco and oral diseases: An update of the evidence, with recommendations. Med Principles Pract. 2003;12(suppl 1):22-32.
[ CrossRef] [ PubMed] | 8. | Tezal M, Grossi SG, Ho AW, Genco RJ. Alcohol consumption and periodontal disease. The Third National Health and Nutrition Examination Survey. J Clin Periodontol. 2004;31:484-88.
[ CrossRef] [ PubMed] | 9. | Moynihan P, Petersen PE. Diet, nutrition and the prevention of dental diseases. Public Health Nutrition. 2004;7:201-26.
[ CrossRef] [ PubMed] | 10. | World Health Organisation. Media centre. Oral health. Available on: http://www. who.int/mediacentre/factsheets/fs318/en/. (Last accessed on 20th January 2020).
| 11. | Shah N. Oral and dental diseases. Causes, prevention and treatment strategies. Burden of disease. Commission on Macroeconomics and Health. 2005:275-288.
| 12. | Chakraborty M, Saha JB, Bhattacharya RN, Roy A, Ram R. Epidemiological correlates of dental caries in an urban slum of West Bengal. Indian J Public Health. 1997;41:56-60.
| 13. | Disease burden in India Estimations and causal analysis. National Commission on Macroeconomics and Health Ministry of Health & Family Welfare, Government of India, New Delhi September 2005:22. New Delhi September 2005. (Last accessed on 16th Sept 2021).
| 14. | Census 2011. Siliguri City population. https://www.census2011.co.in/census/city/192-siliguri.html#:~:text=As%20per%20provisional%20reports%20of,males%20and%20343%2C056%20are%20females. (Last Accessed on 02/12/2022).
| 15. | Lwanga SK, Lemeshow S. Sample size determination in health studies, a practical manual. Geneva: World Health Organisation; 1991. Pp. 9.
| 16. | Ghosal S, Sinha A, Kerketta S, Acharya AS, Kanungo S, Pati S. Oral health among adults aged ≥45 years in India: Exploring prevalence, correlates and patterns of oral morbidity from LASI wave-1. Clinical Epidemiology and Global Health. 2022;18:101177. https://www.sciencedirect.com/science/article/pii/S2213398422002202. (Last accessed on 02/12/2022).
[ CrossRef] | 17. | Jürgensen N, Petersen PE. Oral health and the impact of socio-behavioural factors in a cross sectional survey of 12-year old school children in Laos. BMC Oral Health. 2009;9:29.
[ CrossRef] [ PubMed] | 18. | Jiang H, Petersen PE, Peng B, Tai B, Bian Z. Self-assessed dental health, oral health practices, and general health behaviors in Chinese urban adolescents. Acta Odontol Scand. 2005;63:343-52. Available on: http://informahealthcare.com/doi/abs/10.1080/00016350500216982. (Last accessed on 25th January 2022).
[ CrossRef] [ PubMed] | 19. | Petersen PE, Bourgeois D, Ogawa H, Estupinan-day H, Diaya C. The global burden of oral diseases and risk to oral health. Bulletin of World Health Organisation. 2005;83:661-69.
| 20. | Taneja DK. National oral health care programme. In: Banerjee B, editor. Health policies and programmes in India. 11th edition. Delhi. M/S Doctors publication 2013;363.
| 21. | Gupta PC, Mehta FS, Daftary DK, Pindborg JJ, Bhonsle RB, Jalnawalla PN, et al. Incidence rates of oral cancer and natural history of oral precancerous lesions in a 10-year follow-up study of Indian villagers. Community Dent Oral Epidemiol. 1980;8:287-333.
[ CrossRef] [ PubMed] | 22. | Nair UJ, Obe G, Friesen MD, Goldberg MT, Bartsch H. Role of lime in the generation of reactive oxygen species from betel quid ingredients. Environ Health Perspect. 1997;98:203-05.
[ CrossRef] [ PubMed] | 23. | Reichart PA, Philipsen HP. Oral erythroplakia-a review. Oral Oncol. 2005;41(6):551- 61. Available from: http://www.ncbi.nlm.nih.gov/pubmed/15975518. (Last accessed on 16th September 2022).
[ CrossRef] [ PubMed] | 24. | Inamdar IF, Ubaidulla M, Saleem H, Tambe SH, Doibale MK. Study of oral health among adolescents in the field practice area of urban health training centre, Nanded, India. IOSR Journal of Dental and Medical Sciences. 2013;8(6):26-30.
[ CrossRef] | 25. | Phatak A. Fibrin producing factor in oral sub-mucous fibrosis. Indian Journal of Otolaryngology and Head & Neck Surgery. 1979;31(4):103-04.
[ CrossRef] | 26. | Bokor-Bratie M, Picuric I. The prevalence of precancerous oral lesions: Oral lichen planus. Archive of Oncology. 2001;9(2):107-09.
| 27. | Abdulla HA. Prevalence of dental caries and associated teeth brushing behavior among Iraqi adolescents in Al- Door district. Tikrit Medical. 2009;15(2):102-09.
| 28. | Choosing better oral health. Department of health. United kingdom. Available on: http://webarchive.nationalarchives.gov.uk/ | 29. | 10 ways you can prevent dental cavities. Health, India gets healthy. Available on: http://health.india.com/oral-health/10-ways-you-can-prevent-dental-cavities/. (Last accessed on 1st January 2020).
| 30. | Office for National Statistics, 2009 Mortality Statistics: Cause, 2007 http://info. cancerresearchuk.org/cancerstats/types/oral/mortality/index.htm. (Last accessed on 30th Sept 2020).
| 31. | Muthukrishnan A, Warnakulasuriya S. Oral health consequences of smokeless tobacco use. Indian J Med Res. 2018;148(1):35-40.
[ CrossRef] [ PubMed] | 32. | Tomar SL, Hecht SS, Jaspers I, Gregory RL, Stepanov I. Oral health effects of combusted and smokeless tobacco products. Adv Dent Sci. 2019;30(1):04-10.
[ CrossRef] [ PubMed] | 33. | Beklen A, Yildirim BG, Mimaroglu M, Yavuz MB. The impact of smoking on oral health and patient assessment of tobacco cessation support from Turkish dentists. Tob Induc Dis. 2021;19:49. https://doi.org/10.18332/tid/136418.
[ CrossRef] [ PubMed] | 34. | American cancer society. Health risk of smokeless tobacco. https://www.cancer. org/healthy/stay-away-from-tobacco/health-risks-of-tobacco/smokeless-tobacco.html. (Lass accessed on 30th Oct 2022). |
DOI: 10.7860/JCDR/2023/61054.17352
Date of Submission: Oct 25, 2022
Date of Peer Review: Dec 02, 2022
Date of Acceptance: Dec 22, 2022
Date of Publishing: Jan 01, 2023
AUTHOR DECLARATION:
• Financial or Other Competing Interests: None
• Was Ethics Committee Approval obtained for this study? Yes
• Was informed consent obtained from the subjects involved in the study? Yes
• For any images presented appropriate consent has been obtained from the subjects. NA
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