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Prevalence of damaged and missing teeth among women in the southern plains of Nepal: Findings of a simplified assessment tool

Prevalence of damaged and missing teeth among women in the southern plains of Nepal: Findings of... (2019) Prevalence of damaged and missing teeth among women in the southern plains of Nepal: Findings of a simplified assessment tool. PLoS Objective ONE 14(12): e0225192. https://doi.org/10.1371/ journal.pone.0225192 To assess the prevalence of missing and damaged teeth among women in the rural south- ern plains of Nepal using an interviewer-administered tooth assessment module. Editor: Fre´de´ric Denis, Centre Hospitalier Regional Universitaire de Tours, FRANCE Setting Received: May 13, 2019 21wards in seven Village Development Committees across the Tarai of Nepal in 2015. Accepted: October 30, 2019 Published: December 3, 2019 Participants Copyright:© 2019 Agrawal et al. This is an open Resident, married women of children less than 5 years of age or those married in the 2 access article distributed under the terms of the years prior to the survey, 14 to 49 years of age participating in a mid-year nutrition and Creative Commons Attribution License, which permits unrestricted use, distribution, and health survey in the Tarai region of Nepal. reproduction in any medium, provided the original author and source are credited. Outcome measures Data Availability Statement: Data is available via: Prevalence of missing and damaged teeth, history of dental problems, oral hygiene prac- Johns Hopkins University; Tufts University; Feed tices, access to dental treatment and risk factors for missing and damaged teeth. the Future Innovation Lab for Nutrition, 2019, “The Policy and Science for Health, Agriculture and Nutrition (PoSHAN) Annual Survey Datasets 2013- Results 2016”, https://doi.org/10.7281/T1/UMDMQK, Of 3007 assessed women, aged 14 to 49 years of age, 22.8% (95% CI: 21.4–24.4) reported Johns Hopkins University Data Archive, V1. � 1 missing or damaged teeth; 81.5% (95% CI 80.1–82.9) reported regularly practicing oral Funding: The PoSHAN field studies and this hygiene, typically with standard local dentifrices. Pain or discomfort in the oral cavity in the publication were supported by the U.S. Agency for International Development (USAID), through the previous 6 months affected 17.6% of women. Among these, 43.8% had sought treatment PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 1 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Feed the Future Nutrition Innovation Lab under the from a dental facility, pharmacy or village doctor. Home remedies were commonly applied to terms of Cooperative Agreement No. AID-OAA-L- relieve pain. 10-00006. Additional contributions from the Sight and Life Global Nutrition Research Institute, Baltimore, MD and the Bill and Melinda Gates Conclusion Foundation (OPP1141435) are acknowledged. The Broken and missing teeth are common, affecting nearly one-quarter of adult women of opinions expressed herein are those of the authors reproductive age in rural Southern Nepal, as assessed by an interviewer-administered and do not necessarily reflect the views of the USAID. questionnaire. Competing interests: The authors have declared that no competing interests exist. Introduction Oral health complications are poorly documented in most low- and middle-income countries (LMICs). Reliable prevalence estimates, with consequent quality of life and economic burdens, of untreated dental diseases, remain virtually absent to date for lack of technical capabilities in resource poor settings [1, 2]. At present, only 38% of all LMICs have a national oral health data set.[3] Rising consumption of sweet foods and sugary drinks, characteristic of a nutrition tran- sition toward obesity that is underway in most LMICs coupled with insufficient oral health education programs, school-based interventions and primary oral health care and prevention strategies, have been cited as reasons for the high prevalence of dental decay and related pain in developing countries.[1, 4] Notwithstanding the paucity of data, estimates that do exist sug- gest poor dental health to be a global public health problem, with 3.5 billion people having treatable, morbid dental conditions [5] A challenge to revealing the burden of dental disease and monitoring the prevention of decay through improved care stems from a lack of practical and reliable oral health diagnos- tics by front line community health workers and lay, trained surveyors. Commonly dental disease prevalence measures and indices such as the World Health Organization’s (WHO) recommended “decayed, missing, filled teeth” index (DMFT), the Oral Hygiene Index— Simplified (OHI-S), and the Community Periodontal Index for Treatment Needs (CPITN) continue to remain under the sole purview of dental health scientists, clinicians and techni- cal specialists, [6] although structured questionnaires have occasionally been used to gather information on dental decay and pain by trained dentists in school and village settings. [1, 2, 7, 8]. The comprehensive Global Burden of Disease (GBD) study highlights additional chal- lenges [5]. Specifically, while generating estimates of the burdens of most severe oral dis- eases, the GBD fails to capture antecedent conditions to severe periodontitis such as early tooth decay or poor oral hygiene practices that precede clinical disease [5] Current survey systems are expensive, time consuming, overly-reliant on technology and, thus, often unable to reliably function under usual field conditions in underdeveloped settings. A simple, oral health assessment tool presented here overcomes common logistical and technical chal- lenges in the field while capturing credible data on oral disease, injury manifested by tooth damage or loss and oral hygiene practices among women of reproductive age. The assess- ment was nested into an agriculture, nutrition and health survey in the rural southern plains (Tarai) of Nepal. Methods A tooth and oral health practices module was embedded in the Policy and Science for Health, Agriculture and Nutrition (PoSHAN) Community Studies project in Nepal, comprising a PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 2 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool previously described series of nationally representative, annual cross-sectional surveys carried out from 2013 to 2016.[9] The PoSHAN surveys were designed to assess the extent, direction and strengths of association between agricultural practices, markets, extension programs, and home food security and maternal and preschool child diet, nutrition and health in Nepal that may inform and guide policies and programs. [9] Eligibility criteria for accessing women in the surveys included (1) presence of a child under-5 years of age or (2) being without a young child but married within the past 2 years. As risk of missing and damaged teeth is known to correlate with age, the present analysis focused on women in our sample between the ages of 14 and 49 years of age. The core survey tool included detailed information collected at the community, household, woman and child levels, including measures of local market food prices, agricultural productivity, food security, and diet, nutritional status and health of women and children, and exposure to agricultural and microeconomic extension, nutrition and health programs in Nepal. The surveys’ protocol also provided a platform to nest sub-studies to explore specific health burdens within the popula- tion. Thus, in 2015, a module was developed and fielded to collect data on oral health indica- tors in the form of a self-reported tooth assessment module. Due to the large earthquake that struck the hill and mountain regions of Nepal in April- May 2015, mid-year data collection that year was limited to the least affected southern agro- ecological zone the Tarai, where seven Village Development Committees (VDCs) (Banke, Nawalparasi, Bara, Sarlahi, Dhanusa, Saptari, Morang districts) were systematically sampled from West to East following a random start. One VDC each in the mountains and hills were also assessed, but not addressed in this report (S1 Fig).[9–11] Thus, the present study focuses on generating representative estimates of tooth loss and damage in the Tarai zone, where ~60% of the population of Nepal resides. All heads of households were interviewed to obtain information on demographic, house- hold socioeconomic, food security and dietary characteristics. Eligible women were inter- viewed to collect data on history of pregnancy, pre- and post-natal care, dietary frequency over the previous 7 days, and morbidity history over a period of 30 days prior to the interview, access to health and nutritional services within a year prior to the interview, and knowledge and practices related to maternal health and nutrition, anthropometry (weight, height and left mid-upper arm circumference of women) and hemoglobin measurements in a random 10% subset of women in selected households, obtained by finger sticks and measurement on an HB 201 hemoglobin meter (HemoCue AB, Angelholm, Sweden). The tooth assessment module (available in S1 File) collected information on histories of dental problems, oral hygiene practices, self-reported history of dental pain (recall period of 6 months), and access to treatment for dental complaints. The main outcome of study was the self-reported counts of missing and/or damaged teeth among mothers or female caretakers of children under 5 years, and recently married women without children, aided by a pictorial dia- grammatic simulation of the oral cavity. (S2 Fig) A missing tooth was defined as “any tooth in the oral cavity lost due to dental extraction, natural causes, or traumatic injury”. Damaged teeth were defined as “any carious and grossly damaged tooth, root stumps, cracked or chipped teeth, abrasions, and mottled teeth.” Prior to field work, a training session consisting of a day-long simulation exercise was con- ducted for a team of 21 master trainers who also served as enumerators, none of whom had ever worked in oral health. Since the module had initially been developed in English and trans- lated into Nepali, training included exercises in back translation to assure unambiguous trans- lation, and practice exercises to ensure consistent performance. The team was also oriented with dental terminology used in the assessment module, structure of the human mouth, and mechanics of identifying onset of caries. These master trainers then trained the remaining PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 3 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool team of 42 enumerators on the tooth assessment module. During the survey, the data collectors walked eligible women through each question in the module and recorded responses. The enu- merators assisted the women in conceptualizing the pictorial diagram and orienting it with their own oral cavity to be able to report the number of missing and/or damaged teeth in their mouth. The data collected was regularly checked in the field for outliers, consistency and com- pleteness. It took approximately 10 minutes to complete the tooth assessment module and no significant difficulties were reported from enumerators. The sampling approach was designed under the assumption that it would accrue approxi- mately 2500 women in the Tarai, and with this sample size, for a prevalence of approximately 20% (a reasonable prior approximation of prevalence of damaged teeth), we had power (1-β) = 0.97 to report a prevalence. Descriptive statistics provided estimates of frequency dsitributions for missing and dam- aged teeth by socio-demographic factors such as age, occupation, educational level, nutritional status, food security, and diet history. A wealth index was calculated as a measure of socioeco- nomic status using principal component analysis of data on household asset and construction materials, including electricity, source of energy for cooking, source of drinking water, type of toilet facility, and availability of cooking fuel, main material of wall, roof and floor, and house- hold asset ownership, previously described.[12] The wealth index ranged from -5.0 to 5.2, but was converted to a binary variable with values <0 and� 0 for purposes of analysis. Women’s intake of different food items was measured using the 51-item 7-day food frequency question- naire, adapted from previous studies conducted in Nepal. [13] The aim of including dietary data in the present analysis was to evaluate possible adverse effects of poor dental health on usual intake. Food items were consolidated into nine food groups, based on the Food and Agricultural Organization’s Household Dietary Diversity Score guidance, including starchy staples; legumes nuts and seeds; dairy; eggs; flesh food;, dark green leaves; other provitamin A- rich fruits and vegetables; and other fruits and vegetables.[14] For each food group, women consuming at least one time in the previous week were assigned a score of 1 and those who had not consumed were assigned a score of 0. A total diet diversity score was then computed representing the sum of these food groups (range from 0 to 9), and treated as a categorical vari- able (< 4, 4–7, > = 8). Household food security was accessed using FANTA’s Household Food Insecurity Access Scale and categorized into food secure, mild, moderate and severe food inse- curity categories. [15] Frequency distributions were calculated for (i) past history of dental disease, (ii) use of dif- ferent oral hygiene products, (iii) access to dental treatment, and (iv) types of treatment received. Chi square statistics were applied to test the associations between distributions of risk factors and the presence of missing and damaged teeth. The risks of having a missing or damaged tooth by different maternal and household factors were calculated as odds ratios (OR) with 95% confidence intervals, unadjusted and adjusted to generate a robust standard error that accounted for clustering in the study design. The variables that were hypothesized to be associated with missing and damaged teeth included age, education level, occupation, caste, body mass index, diet diversity and wealth index. All analyses were conducted on the quantita- tive data analysis software StataCorp 15.1. Ethical approval was obtained from the Institutional Review Boards of Johns Hopkins Bloomberg School of Public Health (IRB number: 4937)and on an annual basis from the Nepal Health Research Council, an autonomous body under the Ministry of Health, Nepal, (Reg. No.: 91/2016). Heads of households, newly married women and mothers or caregivers of children < 5 provided signed or verbal informed consent, depending on the level of education. PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 4 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Results Based on a cluster sampling design, 2,860 households were eligible for inclusion in the study. Of a total of 3,274 women eligible for interview, 3,007 (91.8%) women completed the oral health self-reported assessment modules after excluding women who were unavailable for interview (n = 199), refused interview (n = 10), moved out of the study area (n = 30) or were 50 years and older grandmother caretakers (n = 25). (Fig 1) Women’s characteristics Mothers’ and newlywed women’s ages ranged from 14 to 49; 62.3% were 20 to 29 years of age and 3.3% were 40 to 49 years of age. More than three-quarters of households (82.5%) were food secure and 1.9% of the households were classified as severely food insecure. Most women (81.5%) brushed their teeth at least once a day, and 16.8% reported brushing twice a day or more frequently. Toothbrush and tooth paste were the most common tooth cleaning supplies used. Some women (1.1%) also used toothpicks or dental floss to clean interdental surfaces of the teeth. (Table 1) Prevalence of missing and damaged teeth Nearly a quarter of women (22.9%; 95% CI: 21.4–24.4) had one or more missing or damaged tooth in their oral cavity. (Table 2) Among women 30–39 years of age, 19.3% had one or more missing teeth and 18.7% had one or more damaged teeth. Some participants reported having difficulty orienting themselves with the pictorial diagram of the oral cavity, which can be a lim- itation since participants use the simulation to indicate missing or damaged teeth in a particu- lar sextant of the mouth. In multivariable adjusted models, the relative odds of having a missing or damaged tooth rose monotonically with increasing age, with women 30 to 39 years of age at a 4.08 (95% CI 2.32–7.16) times higher odds of having missing or damaged teeth than the referent group, women under 20 years of age. (Table 3) Relative to “higher” Brahmin or Chettri castes, women from Dalit and Janajati castes had a lower odds of having missing or damaged teeth (OR 0.65, 95% CI 0.46–0.91). (Table 3) Women with no formal education had 24% (95% CI 4–39) lower odds of having missing or damaged teeth that those with any formal education. There were no differences in the relative odds of having teeth missing or damaged by occupation, nutritional indicators (BMI, diet diversity scores) or socioeconomic status (wealth index). Past history of dental pain and access to treatment Over a recall period of 6 months, 528 (17.6%) women reported having pain or discomfort in their oral cavity. Tooth decay, swelling of the gums (also known as gingivitis), drinking cold water or eating sweet foods were among the main reasons for intermittent or constant pain for 53.6% of women who reported pain or discomfort. Swelling of the gums (24.4%) and injury to the mouth (16.1%) were among the other common reasons. Of women who had pain or dis- comfort, only 53.8% sought treatment, with the most prevalent care providers being dentists (41.9%) and pharmacists (local shop compounders)/village doctors (40.5%). Pharmacies (37.7%) were the most common treatment facilities visited for pain and dis- comfort, followed by dental clinics (31.3%), hospitals (11.9%) and primary health care centers (6.7%). Most women (79.9%) were given medications for pain relief, reportedly to fight infec- tions or treat fever. Extraction, tooth cleaning and restorations were some of the other treat- ment options that were provided. Approximately 9.5% used home remedies such as salt-water PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 5 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Fig 1. Consort diagram for the analytical sample of women of reproductive age in the Tarai. https://doi.org/10.1371/journal.pone.0225192.g001 PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 6 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 1. Socio-demographic characteristics and dental practices of women of reproductive age in Tarai, Nepal, 2015. n, % Characteristics Total (3000, 100%) Missing or damaged teeth (688, 22.9%) Normal teeth (2319, 77.1%) Age (years) < 20 372 (12.3) 48 (6.8) 324 (13.9) 20–29 1873 (61.8) 398 (56.3) 1475 (63.4) 30–39 662 (21.8) 208 (29.4) 454 (19.5) 40–49 100 (3.3) 34 (4.94) 66 (2.85) Education (years of school) None 1,619 (53.8) 348 (50.6) 1,271 (54.8) Any grade 1,388 (46.2) 340 (49.4) 1,048 (45.2) 1,3 Occupation Student/ Non-earning 2,486 (82.8) 549 (79.9) 1,937 (83.7) Wage employment 163 (5.4) 42 (6.1) 121 (5.2) Business/ trade/self 107 (3.6) 21 (3.1) 86 (3.7) Salaried worker 39 (1.3) 10 (1.5) 29 (1.3) Homestead 207 (6.9) 65 (9.5) 141 (6.1) Caste Brahmin/ Chettri 290 (9.7) 96 (14.1) 194 (8.4) Dalit/ Janajati 784 (26.3) 171 (25.2) 613 (26.6) Others 1,601 (53.7) 325 (49.3) 1,266 (55.0) Newars 39 (1.3) 10 (1.5) 29 (1.3) Muslims 267 (8.9) 67 (9.9) 200 (8.7) Wealth Index < 0 1,670 (55.5) 366 (53.2) 1,304 (56.2) > = 0 1,337 (44.5) 322 (46.8) 1,015 (43.8) Diet Diet diversity score < 4 70 (2.3) 15 (2.2) 55 (2.4) Diet diversity score 4–7 2,330 (77.5) 533 (77.5) 1,797 (77.5) Diet diversity score > = 8 607 (20.2) 140 (20.4) 467 (20.1) Household food insecurity None 2,480 (82.5) 544 (79.1) 1,936 (83.5) Mild 291 (9.7) 71 (10.3) 220 (9.5) Moderate 178 (5.9) 60 (8.7) 118 (5.1) Severe 58 (1.9) 13 (1.9) 45 (1.9) Cleaning/ brushing teeth Once daily 2,450 (81.5) 537 (78.1) 1,913 (82.5) > = 2 times per day 505 (16.8) 137 (19.9) 368 (15.9) 1–6 times per week 50 (1.7) 14 (2.0) 36 (1.6) Tooth cleaning supplies Toothpaste 2,368 (78.8) 567 (82.4) 1,801 (77.7) Toothbrush 2,303 (76.6) 544 (79.1) 1,759 (75.8) Bamboo stick (neem pata) 1,104 (36.7) 243 (35.6) 861 (37.2) Charcoal 103 (3.4) 24 (3.5) 79 (3.4) Toothpick/ dental floss 33 (1.1) 33 (1.1) 25 (1.1) Non-earning occupation includes housewife and Female Community Health Volunteer, a position that has no associated salary; Homestead occupation includes agriculture, livestock, poultry, and aquaculture On chi square test, statistically significant at p value of <0.001; statistically significant at pvalue of 0.01 https://doi.org/10.1371/journal.pone.0225192.t001 PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 7 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 2. Prevalence of missing or damaged teeth among women in Tarai, Nepal, 2015. 1 2 Age group (years) Total Missing teeth Damaged teeth Missing or Damaged teeth Any 1 tooth > = 2 teeth Any 1 tooth > = 2 teeth <20 372 14 (3.8) 14 (3.8) 0 37 (9.9) 33 (8.9) 4 (1.1) 48 (12.9) 20–29 1873 204 (10.9) 187 (9.9) 17 (0.9) 252 (13.5) 209 (11.2) 43 (2.3) 398 (21.3) 30–39 662 128 (19.3) 104 (15.7) 24 (3.6) 124 (18.7) 99 (14.9) 25 (3.8) 208 (31.4) 40–49 100 25 (25.0) 19 (19.0) 6 (6.0) 18 (18.0) 14 (14.0) 4 (4.0) 34 (34.0) Total 3007 371 (12.3) 324 (10.8) 47 (1.6) 431(14.3) 355 (11.9) 76 (2.5) 688 (22.9) Missing teeth are those that were extracted due to a dental problem or those that shed due to looseness or age. Third molars were considered missing only if the respondent reported it being erupted and then lost for any reason. If the third molar did not erupt at all, it was not recorded as missing. Damaged teeth were defined as those that were decayed, cracked, chipped, broken, or mottled. All values are row percentages https://doi.org/10.1371/journal.pone.0225192.t002 gargles, compression with oil of cloves, balm, or roasted ginger at the site of pain to get relief. (Table 4) History of pain/discomfort history was significantly lower (36.6%, p value—< 0.001) among those who did not report a missing or damaged tooth compared to those with history of missing or damaged teeth. Discussion This study provides an initial estimate of the prevalence of missing or damaged teeth among women of reproductive age across the southern, low lying plains (the Tarai) of Nepal, employ- ing a interviewer-administered tooth assessment module. By this method, 12.3% of surveyed women reported tooth loss, 14.3% reported damaged teeth, and 22.8% reported either condi- tion. More than 80% of the adult women reported practicing oral hygiene on a daily basis. Additionally, women 40–49 years of age and those from the Brahmin and Chhetri castes had higher odds of reporting a missing or a damaged tooth. Our findings that nearly a quarter of women had lost or broken teeth is consistent with findings among adults in other Asian populations, including Indian, Singapore and China which have generated prevalence estimates of dental caries and periodontitis ranging from 28% to 34%. [16–18] These conditions are among the most common oral diseases along with cancers of the mouth and contribute to the burden of missing or damaged teeth in popula- tions. [19–21] The high prevalence of oral diseases is usually attributed diverse dietary factors such as consumption of sugary drinks and intake of sticky food, water fluoride levels, oral hygiene, access to (fluoridated) tooth cleaning products, and genetic factors. [22, 23] Most adult women reported practicing oral hygiene measures such as tooth brushing on a regular basis, as has been reported previously for Nepalese adults. [24] The use of tooth brushes and fluoridated dentrifices is more prevalent in the Tarai region than other ecological belts of the country.[24] Toothbrush and tooth paste were most commonly used oral denti- frices. Bamboo or neem twigs and charcoal were also supplemental household products used for tooth brushing. Another study conducted in the Tarai region of Nepal also cited similar use of products in addition to mud, dirt and ash to clean teeth, which are abrasive in nature and can lead to teeth damage. [25] Past studies have shown that even though laypersons prac- tice regular oral hygiene, they are not aware of fluoridated dentrifices, which reduce the risk of dental decay pertaining to a chemical change in the tooth enamel structure. [25–27] In this study, we were unable to capture the fluoridation status of locally available dentrifices. The inverse odds of damaged or missing teeth by caste and education status as seen in this study PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 8 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 3. Odds ratio (OR) of having missing or damaged teeth in women of reproductive age, Tarai region, Nepal, Characteristics Unadjusted OR Adjusted OR OR 95% CI OR 95% CI Age (years) < 20 Ref - - - 20–29 1.82 1.32–2.52 1.83 1.27–2.63 30–39 3.09 2.19–4.36 3.14 2.12–4.68 40–49 3.48 2.08–5.81 4.08 2.32–7.16 Education (years of school) None 0.84 0.71–1.00 0.76 0.61–0.96 Any grade Ref - - - Occupation Student/ Non-earning Ref - - - Wage employment 1.22 0.86–1.76 1.12 0.75–1.68 Business/ trade/self 0.86 0.53–1.40 0.78 0.46–1.29 Salaried worker 1.21 0.59–2.51 1.22 0.56–2.64 Homestead 1.62 1.19–2.19 1.26 0.90–1.76 Caste Brahmin/ Chettri Ref - - - Dalit/ Janajati 0.56 0.42–0.76 0.65 0.46–0.91 Others 0.53 0.41–0.70 0.63 0.46–0.87 Newars 0.69 0.32–1.49 0.66 0.28–1.53 Muslims 0.68 0.46–0.98 0.77 0.50–1.18 Body mass index <18.5 1.18 0.97–1.46 1.09 0.89–1.36 18.5–24.9 Ref - - - 25–29.9 1.44 1.04–2.00 1.09 0.76–1.55 > = 30 0.83 0.33–2.03 0.57 0.23–1.45 Diet Diet diversity score < 4 0.91 0.49–1.66 1.09 0.56–2.12 Diet diversity score 4–7 0.97 0.80–1.22 1.01 0.80–1.28 Diet diversity score > = 8 Ref - - - Wealth Index < 0 0.88 0.74–1.04 1.04 0.84–1.29 > = 0 Ref - - - Odds ratios adjusted for age, level of education, occupation, caste, BMI, MUAC, wealth index and diet. Missing values– 5 (0.2%); Non-earning occupation includes housewives and female community health volunteers; Homestead occupation includes agriculture, livestock, poultry, aquaculture Missing values– 26 (0.86%) 4 2 measured in weight in kg/height in m https://doi.org/10.1371/journal.pone.0225192.t003 could be mediated by a propensity to consume a more cariogenic diet in higher socioeconomic groups. [28–30] The data on treatment history showed that women in rural Nepal had access to treatment options—both diagnostic and therapeutic. Medications were the most common treatment received. Restorative treatments such as fillings and artificial prosthetics were far less common than extractions. It is important to note, however, that while our study did not evaluate the quality of the treatment services to which respondents were referred, limited financial PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 9 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 4. History of pain or discomfort in the mouth and corresponding treatment over a 6 month period among women of reproductive age, Tarai, Nepal, 2015. Characteristics Counts (N = 3007) Frequency (%) History of pain/ discomfort (Yes) 528 17.6 Reasons for pain/ discomfort (n = 528) Decay 283 53.6 Swelling of gums 129 24.4 Injury to mouth 85 16.1 Others 59 11.2 Loose teeth 18 3.4 Broken or cracked teeth 11 2.1 Don’t know 2 0.4 Treatment provider (n = 284) Pharmacist/ village doctor 115 40.5 Doctor/ Dentist 119 41.9 Health worker 23 8.1 Relative/ friend 14 4.9 Traditional healer/ Shaman 13 4.5 Treatment facility (n = 284) Pharmacy 107 37.7 Dental clinic 89 31.3 Hospital 32 11.3 Primary health care center 19 6.7 Home 18 6.3 Other’s home 14 4.9 Others 5 1.8 Treatment received (n = 284) Medicine 227 79.9 Extraction 60 21.1 Tooth cleaning 42 14.8 Home remedy 27 9.5 Filling (restoration) 23 8.1 Others 11 3.8 No treatment / don’t know 5 1.8 Pain/ discomfort in mouth includes history of tooth ache, currently or in the past 6 months Includes government health worker (18), female community health volunteer (1) and non-governmental organization health worker Among the 528 women who had had pain or discomfort in their teeth in the past 6 months, 284 women sought treatment. Multiple responses (upto 3) from women to questions on reasons for pain/discomfort and treatment received, thus the ns’ done add to 528 (women who had pain/discomfort in the last 6 months) and 284 (women who received treatment) respectively https://doi.org/10.1371/journal.pone.0225192.t004 resources and health care infrastructure, and long distance to facilities with advanced dental care services in most rural areas would suggest most services provided in the Tarai are quite basic compared to those available in urban centers. [31–33] When services are sought, a recent study conducted among pregnant women in rural Nepal revealed little awareness of preventive dental services, showing that treatment seeking behavior remains driven by pain or discomfort in the oral cavity. [25] PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 10 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool This study is among the few to have gathered data on the prevalence of damaged and miss- ing teeth and treatment sought for such conditions by women in rural populations, adding new knowledge to a limited evidence base. The use of a tooth assessment module with minimal training of data enumerators enabled the collection of information needed to generate these estimates. The tool can be scaled in Nepal and adapted in other countries in the region employing similar cadres of community survey workers to collect information on oral health. [34] However, it is important to note that damaged and missing teeth are only a subset of a host of oral diseases that can be present and, thus, do not represent the total burden or extent of oral diseases in Nepal. An interviewer-administered assessment module, such as the one used in this study, has the potential to reveal the burden, however, of pain and damage in the oral cavity, guide the roll out of more sophisticated point-of-care diagnostics in low-resource environments, be applied in a standardized way for oral health assessments and provide suffi- cient information for basic oral health education. A limitation of this tool is that we were not able to collect information on restorative treatment, a proxy to dental disease history, normally collected via the DMFT index or via oral radiographs, as the recognition of restorative materi- als (metallic or tooth colored) was not included in the training for data enumerators. Another limitation to the study is the self-reported method of enumerating life time history of missing and damaged teeth, which is subject to response and recall bias, and selection bias due to the very specific inclusion criteria. Shyness, fear of stigmatization as well as lack of awareness about oral health issues may have led to discrepancies. While the study has gener- ated novel findings, future studies should cross-validate findings from this simplified assess- ment tool with methods such as the DMFT index to evaluate its use as an inexpensive method for estimating the prevalence of lost, broken, carious and dysfunctional dentition in low resource settings lacking dental services and trained dental researchers. [6] The assessment tool can further be expanded to estimate the prevalence of missing and damaged teeth and oral hygiene practices in other regions of the country. In conclusion, a primary objective of this assessment was the application of a simple survey tool to estimate the extent and severity of missing and damaged teeth in an adult female popu- lation. Our module was readily utilized by trained, lay data collectors and health care workers allowing data on clinically important oral health conditions to be collected. The findings sug- gest that missing and damaged teeth represent a major burden among women of reproductive age in the southern plains of Nepal. Supporting information S1 Fig. Randomly selected village development committees in the Tarai region of Nepal, (PDF) S2 Fig. Simulation of the oral cavity used for training field staff and to aid in data collec- tion. (PDF) S1 File. The tooth assessment module. (PDF) Author Contributions Conceptualization: Rolf D. Klemm, Keith P. West. Data curation: Binod Shrestha. PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 11 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Formal analysis: Priyanka Agrawal. Funding acquisition: Rolf D. Klemm, Keith P. West. Investigation: Rolf D. Klemm, Keith P. West. Methodology: Priyanka Agrawal, Swetha Manohar. Supervision: Swetha Manohar. Writing – original draft: Priyanka Agrawal. Writing – review & editing: Swetha Manohar, Andrew L. Thorne-Lyman, K. C. Angela. References 1. Dixit L.P., Shakya A., Shrestha M. Dental caries prevalence, oral health knowledge and practice among indigenous Chepang school children of Nepal. BMC Oral Health. 2013; 13(1):1. 2. Yee R., Mcdonald N. Caries experience of 5–6 year old and 12–13 year old schoolchildren in central and western Nepal. International dental journal. 2002; 52(6):453–60. https://doi.org/10.1111/j.1875- 595x.2002.tb00642.x PMID: 12553401 3. Nithila A., Bourgeois D., Barmes D.E., and Murtomaa H. WHO Global Oral Data Bank, 1986–96: an overview of oral health surveys at 12 years of age. Bull World Health Organ. 1998; 76(3):237. PMID: 4. Popkin B.M., Slining M. New dynamics in global obesity facing low-and middle-income countries. Obe- sity reviews. 2013; 14:11–20. https://doi.org/10.1111/obr.12102 PMID: 24102717 5. Kassebaum N. J., Smith A. G. C., Bernabe ´ E., Fleming T. D., Reynolds A. E., Vos T., Murray C. J. L., Marcenes W., and GBD 2015 Oral Health Collaborators. Global, Regional, and National Prevalence, Incidence, and Disability-Adjusted Life Years for Oral Conditions for 195 Countries, 1990–2015: A Sys- tematic Analysis for the Global Burden of Diseases, Injuries, and Risk Factors. J Dent Res. 2017; 96(4):380–7. https://doi.org/10.1177/0022034517693566 PMID: 28792274 6. World Health Organization. Oral health surveys: basic methods: World Health Organization; 2013. 7. Ditmyer M., Dounis G., Mobley C. and Schwarz E. Inequalities of caries experience in Nevada youth expressed by DMFT index vs. Significant Caries Index (SiC) over time. BMC Oral Health. 2011; 11(1):12. 8. Campus G., Sacco G., Cagetti M. and Abati S. Changing trend of caries from 1989 to 2004 among 12- year old Sardinian children. BMC Public Health. 2007; 7(1):28. 9. Klemm R.D.W., Manohar S., Rajbhandary R., Shrestha K., Gauchan D., Adhikari R., et al. Pathways from Agriculture-to-Nutrition: Design and Conduct of the National PoSHAN Surveys of Nepal. J Food Security. 2018; 6(2):79–89. 10. Goda K., Kiyota T., Pokhrel R.M., Chiaro G., Katagiri T., Sharma K., et al. The 2015 Gorkha Nepal earthquake: insights from earthquake damage survey. Frontiers in Built Environment. 2015; 1:8. 11. Thorne-Lyman A.L., Angela K., Manohar S., Shrestha B., Nonyane B. A., Neupane S., et al. Nutritional resilience in Nepal following the earthquake of 2015. PloS One. 2018; 13(11):e0205438. https://doi.org/ 10.1371/journal.pone.0205438 PMID: 30403683 12. Gunnsteinsson S., Labrique A.B., West K.P. Jr, Christian P., Mehra S., Shamim A. A., et al. Construct- ing indices of rural living standards in Northwestern Bangladesh. J Health Popul Nutr. 2010:509–19. https://doi.org/10.3329/jhpn.v28i5.6160 PMID: 20941903 13. Campbell R.K., Talegawkar S.A., Christian P., LeClerq S. C., Khatry S. K., Wu L. S., et al. Seasonal die- tary intakes and socioeconomic status among women in the Terai of Nepal. J Health Popul Nutr. 2014; 32(2):198. PMID: 25076658 14. Dorsey J.L., Manohar S., Neupan S., Shrestha B., Klemm R. D., and West K. P. Jr Individual, house- hold, and community level risk factors of stunting in children younger than 5 years: Findings from a national surveillance system in Nepal. Matern Child Nutr. 2018; 14(1):e12434. 15. Coates, J., Swindale, A., Bilinsky, P. Household Food Insecurity Access Scale (HFIAS) for measure- ment of food access: indicator guide. Washington, DC: Food and Nutrition Technical Assistance Proj- ect, Academy for Educational Development. 2007;34. 16. Ong G. Periodontal reasons for tooth loss in an Asian population. J Clin Periodontol. 1996; 23(4):307–9. https://doi.org/10.1111/j.1600-051x.1996.tb00550.x PMID: 8739160 PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 12 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool 17. Frencken JE, Sharma P, Stenhouse L, Green D., Laverty D., and Dietrich T. Global epidemiology of dental caries and severe periodontitis—a comprehensive review. J Clin Periodontol. 2017; 44 Suppl 18: S94–s105. 18. Erchick D.J., Rai B., Agrawal N.K., Khatry S. K., Katz J., LeClerq S. C., et al. Oral hygiene, prevalence of gingivitis, and associated risk factors among pregnant women in Sarlahi District, Nepal. BMC Oral Health. 2019 Dec; 19(1):2. https://doi.org/10.1186/s12903-018-0681-5 PMID: 30611255 19. Petersen P.E., Bourgeois D., Ogawa H., Estupinan-Day S., and Ndiaye C. The global burden of oral dis- eases and risks to oral health. Bull World Health Organ. 2005; 83(9):661–9. PMID: 16211157 20. Lukacs J.R. Gender differences in oral health in South Asia: metadata imply multifactorial biological and cultural causes. Am Hum Biol. 2011; 23(3):398–411. 21. Khan A.A., Jain S.K., Shrivastav A. Prevalence of dental caries among the population of Gwalior (India) in relation of different associated factors. Eur J Dent. 2008; 2(2):81–5. PMID: 19212515 22. Selwitz R.H., Ismail A.I., Pitts N.B. Dental caries. The Lancet. 2007; 369(9555):51–9. 23. Harris R., Nicoll A.D., Adair P.M., and Pine C. M. Risk factors for dental caries in young children: a sys- tematic review of the literature. Community Dent health. 2004; 21(1):71–85. 24. Thapa P., Aryal K.K., Mehata S., Vaidya A., Jha B. K., Dhimal M., et al. Oral hygiene practices and their socio-demographic correlates among Nepalese adult: evidence from non communicable diseases risk factors STEPS survey Nepal 2013. BMC Oral Health. 2016; 16(1):105. https://doi.org/10.1186/s12903- 016-0294-9 PMID: 27686858 25. Lubo A., Erchick D., Khatry S., LeClerq S. C., Agrawal N. K., Reynolds M. A., et al. Oral health knowl- edge, behavior, and care seeking among pregnant and recently-delivered women in rural Nepal: a quali- tative study. BMC Oral Health. 2018; 18(1):97. https://doi.org/10.1186/s12903-018-0564-9 PMID: 26. Wagle M, Trovik T.A., Basnet P and Acharya G. Do dentists have better oral health compared to general population: a study on oral health status and oral health behavior in Kathmandu, Nepal. BMC Oral Health. 2014; 14(1):23. 27. Featherstone J.D. Prevention and reversal of dental caries: role of low level fluoride. Community den- tistry and oral epidemiology. 1999; 27(1):31–40. https://doi.org/10.1111/j.1600-0528.1999.tb01989.x PMID: 10086924 28. Nguyen T.C., Witter D.J., Bronkhorst E.M., Truong N. B., and Creugers N. H. Oral health status of adults in Southern Vietnam—a cross-sectional epidemiological study. BMC Oral Health. 2010; 10(1):2. 29. Sufia S., Chaudhry S., Izhar F., Syed A., Qayum Mirza B. A., and Ali Khan A. Dental Caries Experience in Preschool Children—Is It Related to A Child’s Place of Residence and Family Income? Oral Health Prev Dent. 2011; 9(4):375. PMID: 22238736 30. Petersen P.E. Sociobehavioural risk factors in dental caries–international perspectives. Community Dent Oral Epidemiol. 2005; 33(4):274–9. https://doi.org/10.1111/j.1600-0528.2005.00235.x PMID: 31. Kathmandu R.Y. The burden of restorative dental treatment for children in third world countries. Interna- tional Dental Journal. 2002; 52(1):1–9. PMID: 11931216 32. Sohn W., Ismail A.I. Regular dental visits and dental anxiety in an adult dentate population. J Am Dent Assoc. 2005; 136(1):58–66. https://doi.org/10.14219/jada.archive.2005.0027 PMID: 15693497 33. Lubon A.J., Erchick D.J., Khatry S.K., LeClerq S. C., Agrawal N. K., Reynolds M. A., et al. Oral health knowledge, behavior, and care seeking among pregnant and recently-delivered women in rural Nepal: a qualitative study. BMC oral health. 2018 Dec; 18(1):97. https://doi.org/10.1186/s12903-018-0564-9 PMID: 29859084 34. Shrestha A.D. Can lay health workers help prevent oral cancer in Nepal?. The Lancet Oncology. 2017 Jul 1; 18(7):e370. https://doi.org/10.1016/S1470-2045(17)30468-0 PMID: 28677573 PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 13 / 13 http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png PLoS ONE Public Library of Science (PLoS) Journal

Prevalence of damaged and missing teeth among women in the southern plains of Nepal: Findings of a simplified assessment tool

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Copyright: © 2019 Agrawal et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Data Availability: Data is available via: Johns Hopkins University; Tufts University; Feed the Future Innovation Lab for Nutrition, 2019, “The Policy and Science for Health, Agriculture and Nutrition (PoSHAN) Annual Survey Datasets 2013-2016”, https://doi.org/10.7281/T1/UMDMQK, Johns Hopkins University Data Archive, V1. Funding: The PoSHAN field studies and this publication were supported by the U.S. Agency for International Development (USAID), through the Feed the Future Nutrition Innovation Lab under the terms of Cooperative Agreement No. AID-OAA-L-10-00006. Additional contributions from the Sight and Life Global Nutrition Research Institute, Baltimore, MD and the Bill and Melinda Gates Foundation (OPP1141435) are acknowledged. The opinions expressed herein are those of the authors and do not necessarily reflect the views of the USAID. Competing interests: The authors have declared that no competing interests exist.
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Abstract

(2019) Prevalence of damaged and missing teeth among women in the southern plains of Nepal: Findings of a simplified assessment tool. PLoS Objective ONE 14(12): e0225192. https://doi.org/10.1371/ journal.pone.0225192 To assess the prevalence of missing and damaged teeth among women in the rural south- ern plains of Nepal using an interviewer-administered tooth assessment module. Editor: Fre´de´ric Denis, Centre Hospitalier Regional Universitaire de Tours, FRANCE Setting Received: May 13, 2019 21wards in seven Village Development Committees across the Tarai of Nepal in 2015. Accepted: October 30, 2019 Published: December 3, 2019 Participants Copyright:© 2019 Agrawal et al. This is an open Resident, married women of children less than 5 years of age or those married in the 2 access article distributed under the terms of the years prior to the survey, 14 to 49 years of age participating in a mid-year nutrition and Creative Commons Attribution License, which permits unrestricted use, distribution, and health survey in the Tarai region of Nepal. reproduction in any medium, provided the original author and source are credited. Outcome measures Data Availability Statement: Data is available via: Prevalence of missing and damaged teeth, history of dental problems, oral hygiene prac- Johns Hopkins University; Tufts University; Feed tices, access to dental treatment and risk factors for missing and damaged teeth. the Future Innovation Lab for Nutrition, 2019, “The Policy and Science for Health, Agriculture and Nutrition (PoSHAN) Annual Survey Datasets 2013- Results 2016”, https://doi.org/10.7281/T1/UMDMQK, Of 3007 assessed women, aged 14 to 49 years of age, 22.8% (95% CI: 21.4–24.4) reported Johns Hopkins University Data Archive, V1. � 1 missing or damaged teeth; 81.5% (95% CI 80.1–82.9) reported regularly practicing oral Funding: The PoSHAN field studies and this hygiene, typically with standard local dentifrices. Pain or discomfort in the oral cavity in the publication were supported by the U.S. Agency for International Development (USAID), through the previous 6 months affected 17.6% of women. Among these, 43.8% had sought treatment PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 1 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Feed the Future Nutrition Innovation Lab under the from a dental facility, pharmacy or village doctor. Home remedies were commonly applied to terms of Cooperative Agreement No. AID-OAA-L- relieve pain. 10-00006. Additional contributions from the Sight and Life Global Nutrition Research Institute, Baltimore, MD and the Bill and Melinda Gates Conclusion Foundation (OPP1141435) are acknowledged. The Broken and missing teeth are common, affecting nearly one-quarter of adult women of opinions expressed herein are those of the authors reproductive age in rural Southern Nepal, as assessed by an interviewer-administered and do not necessarily reflect the views of the USAID. questionnaire. Competing interests: The authors have declared that no competing interests exist. Introduction Oral health complications are poorly documented in most low- and middle-income countries (LMICs). Reliable prevalence estimates, with consequent quality of life and economic burdens, of untreated dental diseases, remain virtually absent to date for lack of technical capabilities in resource poor settings [1, 2]. At present, only 38% of all LMICs have a national oral health data set.[3] Rising consumption of sweet foods and sugary drinks, characteristic of a nutrition tran- sition toward obesity that is underway in most LMICs coupled with insufficient oral health education programs, school-based interventions and primary oral health care and prevention strategies, have been cited as reasons for the high prevalence of dental decay and related pain in developing countries.[1, 4] Notwithstanding the paucity of data, estimates that do exist sug- gest poor dental health to be a global public health problem, with 3.5 billion people having treatable, morbid dental conditions [5] A challenge to revealing the burden of dental disease and monitoring the prevention of decay through improved care stems from a lack of practical and reliable oral health diagnos- tics by front line community health workers and lay, trained surveyors. Commonly dental disease prevalence measures and indices such as the World Health Organization’s (WHO) recommended “decayed, missing, filled teeth” index (DMFT), the Oral Hygiene Index— Simplified (OHI-S), and the Community Periodontal Index for Treatment Needs (CPITN) continue to remain under the sole purview of dental health scientists, clinicians and techni- cal specialists, [6] although structured questionnaires have occasionally been used to gather information on dental decay and pain by trained dentists in school and village settings. [1, 2, 7, 8]. The comprehensive Global Burden of Disease (GBD) study highlights additional chal- lenges [5]. Specifically, while generating estimates of the burdens of most severe oral dis- eases, the GBD fails to capture antecedent conditions to severe periodontitis such as early tooth decay or poor oral hygiene practices that precede clinical disease [5] Current survey systems are expensive, time consuming, overly-reliant on technology and, thus, often unable to reliably function under usual field conditions in underdeveloped settings. A simple, oral health assessment tool presented here overcomes common logistical and technical chal- lenges in the field while capturing credible data on oral disease, injury manifested by tooth damage or loss and oral hygiene practices among women of reproductive age. The assess- ment was nested into an agriculture, nutrition and health survey in the rural southern plains (Tarai) of Nepal. Methods A tooth and oral health practices module was embedded in the Policy and Science for Health, Agriculture and Nutrition (PoSHAN) Community Studies project in Nepal, comprising a PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 2 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool previously described series of nationally representative, annual cross-sectional surveys carried out from 2013 to 2016.[9] The PoSHAN surveys were designed to assess the extent, direction and strengths of association between agricultural practices, markets, extension programs, and home food security and maternal and preschool child diet, nutrition and health in Nepal that may inform and guide policies and programs. [9] Eligibility criteria for accessing women in the surveys included (1) presence of a child under-5 years of age or (2) being without a young child but married within the past 2 years. As risk of missing and damaged teeth is known to correlate with age, the present analysis focused on women in our sample between the ages of 14 and 49 years of age. The core survey tool included detailed information collected at the community, household, woman and child levels, including measures of local market food prices, agricultural productivity, food security, and diet, nutritional status and health of women and children, and exposure to agricultural and microeconomic extension, nutrition and health programs in Nepal. The surveys’ protocol also provided a platform to nest sub-studies to explore specific health burdens within the popula- tion. Thus, in 2015, a module was developed and fielded to collect data on oral health indica- tors in the form of a self-reported tooth assessment module. Due to the large earthquake that struck the hill and mountain regions of Nepal in April- May 2015, mid-year data collection that year was limited to the least affected southern agro- ecological zone the Tarai, where seven Village Development Committees (VDCs) (Banke, Nawalparasi, Bara, Sarlahi, Dhanusa, Saptari, Morang districts) were systematically sampled from West to East following a random start. One VDC each in the mountains and hills were also assessed, but not addressed in this report (S1 Fig).[9–11] Thus, the present study focuses on generating representative estimates of tooth loss and damage in the Tarai zone, where ~60% of the population of Nepal resides. All heads of households were interviewed to obtain information on demographic, house- hold socioeconomic, food security and dietary characteristics. Eligible women were inter- viewed to collect data on history of pregnancy, pre- and post-natal care, dietary frequency over the previous 7 days, and morbidity history over a period of 30 days prior to the interview, access to health and nutritional services within a year prior to the interview, and knowledge and practices related to maternal health and nutrition, anthropometry (weight, height and left mid-upper arm circumference of women) and hemoglobin measurements in a random 10% subset of women in selected households, obtained by finger sticks and measurement on an HB 201 hemoglobin meter (HemoCue AB, Angelholm, Sweden). The tooth assessment module (available in S1 File) collected information on histories of dental problems, oral hygiene practices, self-reported history of dental pain (recall period of 6 months), and access to treatment for dental complaints. The main outcome of study was the self-reported counts of missing and/or damaged teeth among mothers or female caretakers of children under 5 years, and recently married women without children, aided by a pictorial dia- grammatic simulation of the oral cavity. (S2 Fig) A missing tooth was defined as “any tooth in the oral cavity lost due to dental extraction, natural causes, or traumatic injury”. Damaged teeth were defined as “any carious and grossly damaged tooth, root stumps, cracked or chipped teeth, abrasions, and mottled teeth.” Prior to field work, a training session consisting of a day-long simulation exercise was con- ducted for a team of 21 master trainers who also served as enumerators, none of whom had ever worked in oral health. Since the module had initially been developed in English and trans- lated into Nepali, training included exercises in back translation to assure unambiguous trans- lation, and practice exercises to ensure consistent performance. The team was also oriented with dental terminology used in the assessment module, structure of the human mouth, and mechanics of identifying onset of caries. These master trainers then trained the remaining PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 3 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool team of 42 enumerators on the tooth assessment module. During the survey, the data collectors walked eligible women through each question in the module and recorded responses. The enu- merators assisted the women in conceptualizing the pictorial diagram and orienting it with their own oral cavity to be able to report the number of missing and/or damaged teeth in their mouth. The data collected was regularly checked in the field for outliers, consistency and com- pleteness. It took approximately 10 minutes to complete the tooth assessment module and no significant difficulties were reported from enumerators. The sampling approach was designed under the assumption that it would accrue approxi- mately 2500 women in the Tarai, and with this sample size, for a prevalence of approximately 20% (a reasonable prior approximation of prevalence of damaged teeth), we had power (1-β) = 0.97 to report a prevalence. Descriptive statistics provided estimates of frequency dsitributions for missing and dam- aged teeth by socio-demographic factors such as age, occupation, educational level, nutritional status, food security, and diet history. A wealth index was calculated as a measure of socioeco- nomic status using principal component analysis of data on household asset and construction materials, including electricity, source of energy for cooking, source of drinking water, type of toilet facility, and availability of cooking fuel, main material of wall, roof and floor, and house- hold asset ownership, previously described.[12] The wealth index ranged from -5.0 to 5.2, but was converted to a binary variable with values <0 and� 0 for purposes of analysis. Women’s intake of different food items was measured using the 51-item 7-day food frequency question- naire, adapted from previous studies conducted in Nepal. [13] The aim of including dietary data in the present analysis was to evaluate possible adverse effects of poor dental health on usual intake. Food items were consolidated into nine food groups, based on the Food and Agricultural Organization’s Household Dietary Diversity Score guidance, including starchy staples; legumes nuts and seeds; dairy; eggs; flesh food;, dark green leaves; other provitamin A- rich fruits and vegetables; and other fruits and vegetables.[14] For each food group, women consuming at least one time in the previous week were assigned a score of 1 and those who had not consumed were assigned a score of 0. A total diet diversity score was then computed representing the sum of these food groups (range from 0 to 9), and treated as a categorical vari- able (< 4, 4–7, > = 8). Household food security was accessed using FANTA’s Household Food Insecurity Access Scale and categorized into food secure, mild, moderate and severe food inse- curity categories. [15] Frequency distributions were calculated for (i) past history of dental disease, (ii) use of dif- ferent oral hygiene products, (iii) access to dental treatment, and (iv) types of treatment received. Chi square statistics were applied to test the associations between distributions of risk factors and the presence of missing and damaged teeth. The risks of having a missing or damaged tooth by different maternal and household factors were calculated as odds ratios (OR) with 95% confidence intervals, unadjusted and adjusted to generate a robust standard error that accounted for clustering in the study design. The variables that were hypothesized to be associated with missing and damaged teeth included age, education level, occupation, caste, body mass index, diet diversity and wealth index. All analyses were conducted on the quantita- tive data analysis software StataCorp 15.1. Ethical approval was obtained from the Institutional Review Boards of Johns Hopkins Bloomberg School of Public Health (IRB number: 4937)and on an annual basis from the Nepal Health Research Council, an autonomous body under the Ministry of Health, Nepal, (Reg. No.: 91/2016). Heads of households, newly married women and mothers or caregivers of children < 5 provided signed or verbal informed consent, depending on the level of education. PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 4 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Results Based on a cluster sampling design, 2,860 households were eligible for inclusion in the study. Of a total of 3,274 women eligible for interview, 3,007 (91.8%) women completed the oral health self-reported assessment modules after excluding women who were unavailable for interview (n = 199), refused interview (n = 10), moved out of the study area (n = 30) or were 50 years and older grandmother caretakers (n = 25). (Fig 1) Women’s characteristics Mothers’ and newlywed women’s ages ranged from 14 to 49; 62.3% were 20 to 29 years of age and 3.3% were 40 to 49 years of age. More than three-quarters of households (82.5%) were food secure and 1.9% of the households were classified as severely food insecure. Most women (81.5%) brushed their teeth at least once a day, and 16.8% reported brushing twice a day or more frequently. Toothbrush and tooth paste were the most common tooth cleaning supplies used. Some women (1.1%) also used toothpicks or dental floss to clean interdental surfaces of the teeth. (Table 1) Prevalence of missing and damaged teeth Nearly a quarter of women (22.9%; 95% CI: 21.4–24.4) had one or more missing or damaged tooth in their oral cavity. (Table 2) Among women 30–39 years of age, 19.3% had one or more missing teeth and 18.7% had one or more damaged teeth. Some participants reported having difficulty orienting themselves with the pictorial diagram of the oral cavity, which can be a lim- itation since participants use the simulation to indicate missing or damaged teeth in a particu- lar sextant of the mouth. In multivariable adjusted models, the relative odds of having a missing or damaged tooth rose monotonically with increasing age, with women 30 to 39 years of age at a 4.08 (95% CI 2.32–7.16) times higher odds of having missing or damaged teeth than the referent group, women under 20 years of age. (Table 3) Relative to “higher” Brahmin or Chettri castes, women from Dalit and Janajati castes had a lower odds of having missing or damaged teeth (OR 0.65, 95% CI 0.46–0.91). (Table 3) Women with no formal education had 24% (95% CI 4–39) lower odds of having missing or damaged teeth that those with any formal education. There were no differences in the relative odds of having teeth missing or damaged by occupation, nutritional indicators (BMI, diet diversity scores) or socioeconomic status (wealth index). Past history of dental pain and access to treatment Over a recall period of 6 months, 528 (17.6%) women reported having pain or discomfort in their oral cavity. Tooth decay, swelling of the gums (also known as gingivitis), drinking cold water or eating sweet foods were among the main reasons for intermittent or constant pain for 53.6% of women who reported pain or discomfort. Swelling of the gums (24.4%) and injury to the mouth (16.1%) were among the other common reasons. Of women who had pain or dis- comfort, only 53.8% sought treatment, with the most prevalent care providers being dentists (41.9%) and pharmacists (local shop compounders)/village doctors (40.5%). Pharmacies (37.7%) were the most common treatment facilities visited for pain and dis- comfort, followed by dental clinics (31.3%), hospitals (11.9%) and primary health care centers (6.7%). Most women (79.9%) were given medications for pain relief, reportedly to fight infec- tions or treat fever. Extraction, tooth cleaning and restorations were some of the other treat- ment options that were provided. Approximately 9.5% used home remedies such as salt-water PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 5 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Fig 1. Consort diagram for the analytical sample of women of reproductive age in the Tarai. https://doi.org/10.1371/journal.pone.0225192.g001 PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 6 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 1. Socio-demographic characteristics and dental practices of women of reproductive age in Tarai, Nepal, 2015. n, % Characteristics Total (3000, 100%) Missing or damaged teeth (688, 22.9%) Normal teeth (2319, 77.1%) Age (years) < 20 372 (12.3) 48 (6.8) 324 (13.9) 20–29 1873 (61.8) 398 (56.3) 1475 (63.4) 30–39 662 (21.8) 208 (29.4) 454 (19.5) 40–49 100 (3.3) 34 (4.94) 66 (2.85) Education (years of school) None 1,619 (53.8) 348 (50.6) 1,271 (54.8) Any grade 1,388 (46.2) 340 (49.4) 1,048 (45.2) 1,3 Occupation Student/ Non-earning 2,486 (82.8) 549 (79.9) 1,937 (83.7) Wage employment 163 (5.4) 42 (6.1) 121 (5.2) Business/ trade/self 107 (3.6) 21 (3.1) 86 (3.7) Salaried worker 39 (1.3) 10 (1.5) 29 (1.3) Homestead 207 (6.9) 65 (9.5) 141 (6.1) Caste Brahmin/ Chettri 290 (9.7) 96 (14.1) 194 (8.4) Dalit/ Janajati 784 (26.3) 171 (25.2) 613 (26.6) Others 1,601 (53.7) 325 (49.3) 1,266 (55.0) Newars 39 (1.3) 10 (1.5) 29 (1.3) Muslims 267 (8.9) 67 (9.9) 200 (8.7) Wealth Index < 0 1,670 (55.5) 366 (53.2) 1,304 (56.2) > = 0 1,337 (44.5) 322 (46.8) 1,015 (43.8) Diet Diet diversity score < 4 70 (2.3) 15 (2.2) 55 (2.4) Diet diversity score 4–7 2,330 (77.5) 533 (77.5) 1,797 (77.5) Diet diversity score > = 8 607 (20.2) 140 (20.4) 467 (20.1) Household food insecurity None 2,480 (82.5) 544 (79.1) 1,936 (83.5) Mild 291 (9.7) 71 (10.3) 220 (9.5) Moderate 178 (5.9) 60 (8.7) 118 (5.1) Severe 58 (1.9) 13 (1.9) 45 (1.9) Cleaning/ brushing teeth Once daily 2,450 (81.5) 537 (78.1) 1,913 (82.5) > = 2 times per day 505 (16.8) 137 (19.9) 368 (15.9) 1–6 times per week 50 (1.7) 14 (2.0) 36 (1.6) Tooth cleaning supplies Toothpaste 2,368 (78.8) 567 (82.4) 1,801 (77.7) Toothbrush 2,303 (76.6) 544 (79.1) 1,759 (75.8) Bamboo stick (neem pata) 1,104 (36.7) 243 (35.6) 861 (37.2) Charcoal 103 (3.4) 24 (3.5) 79 (3.4) Toothpick/ dental floss 33 (1.1) 33 (1.1) 25 (1.1) Non-earning occupation includes housewife and Female Community Health Volunteer, a position that has no associated salary; Homestead occupation includes agriculture, livestock, poultry, and aquaculture On chi square test, statistically significant at p value of <0.001; statistically significant at pvalue of 0.01 https://doi.org/10.1371/journal.pone.0225192.t001 PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 7 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 2. Prevalence of missing or damaged teeth among women in Tarai, Nepal, 2015. 1 2 Age group (years) Total Missing teeth Damaged teeth Missing or Damaged teeth Any 1 tooth > = 2 teeth Any 1 tooth > = 2 teeth <20 372 14 (3.8) 14 (3.8) 0 37 (9.9) 33 (8.9) 4 (1.1) 48 (12.9) 20–29 1873 204 (10.9) 187 (9.9) 17 (0.9) 252 (13.5) 209 (11.2) 43 (2.3) 398 (21.3) 30–39 662 128 (19.3) 104 (15.7) 24 (3.6) 124 (18.7) 99 (14.9) 25 (3.8) 208 (31.4) 40–49 100 25 (25.0) 19 (19.0) 6 (6.0) 18 (18.0) 14 (14.0) 4 (4.0) 34 (34.0) Total 3007 371 (12.3) 324 (10.8) 47 (1.6) 431(14.3) 355 (11.9) 76 (2.5) 688 (22.9) Missing teeth are those that were extracted due to a dental problem or those that shed due to looseness or age. Third molars were considered missing only if the respondent reported it being erupted and then lost for any reason. If the third molar did not erupt at all, it was not recorded as missing. Damaged teeth were defined as those that were decayed, cracked, chipped, broken, or mottled. All values are row percentages https://doi.org/10.1371/journal.pone.0225192.t002 gargles, compression with oil of cloves, balm, or roasted ginger at the site of pain to get relief. (Table 4) History of pain/discomfort history was significantly lower (36.6%, p value—< 0.001) among those who did not report a missing or damaged tooth compared to those with history of missing or damaged teeth. Discussion This study provides an initial estimate of the prevalence of missing or damaged teeth among women of reproductive age across the southern, low lying plains (the Tarai) of Nepal, employ- ing a interviewer-administered tooth assessment module. By this method, 12.3% of surveyed women reported tooth loss, 14.3% reported damaged teeth, and 22.8% reported either condi- tion. More than 80% of the adult women reported practicing oral hygiene on a daily basis. Additionally, women 40–49 years of age and those from the Brahmin and Chhetri castes had higher odds of reporting a missing or a damaged tooth. Our findings that nearly a quarter of women had lost or broken teeth is consistent with findings among adults in other Asian populations, including Indian, Singapore and China which have generated prevalence estimates of dental caries and periodontitis ranging from 28% to 34%. [16–18] These conditions are among the most common oral diseases along with cancers of the mouth and contribute to the burden of missing or damaged teeth in popula- tions. [19–21] The high prevalence of oral diseases is usually attributed diverse dietary factors such as consumption of sugary drinks and intake of sticky food, water fluoride levels, oral hygiene, access to (fluoridated) tooth cleaning products, and genetic factors. [22, 23] Most adult women reported practicing oral hygiene measures such as tooth brushing on a regular basis, as has been reported previously for Nepalese adults. [24] The use of tooth brushes and fluoridated dentrifices is more prevalent in the Tarai region than other ecological belts of the country.[24] Toothbrush and tooth paste were most commonly used oral denti- frices. Bamboo or neem twigs and charcoal were also supplemental household products used for tooth brushing. Another study conducted in the Tarai region of Nepal also cited similar use of products in addition to mud, dirt and ash to clean teeth, which are abrasive in nature and can lead to teeth damage. [25] Past studies have shown that even though laypersons prac- tice regular oral hygiene, they are not aware of fluoridated dentrifices, which reduce the risk of dental decay pertaining to a chemical change in the tooth enamel structure. [25–27] In this study, we were unable to capture the fluoridation status of locally available dentrifices. The inverse odds of damaged or missing teeth by caste and education status as seen in this study PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 8 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 3. Odds ratio (OR) of having missing or damaged teeth in women of reproductive age, Tarai region, Nepal, Characteristics Unadjusted OR Adjusted OR OR 95% CI OR 95% CI Age (years) < 20 Ref - - - 20–29 1.82 1.32–2.52 1.83 1.27–2.63 30–39 3.09 2.19–4.36 3.14 2.12–4.68 40–49 3.48 2.08–5.81 4.08 2.32–7.16 Education (years of school) None 0.84 0.71–1.00 0.76 0.61–0.96 Any grade Ref - - - Occupation Student/ Non-earning Ref - - - Wage employment 1.22 0.86–1.76 1.12 0.75–1.68 Business/ trade/self 0.86 0.53–1.40 0.78 0.46–1.29 Salaried worker 1.21 0.59–2.51 1.22 0.56–2.64 Homestead 1.62 1.19–2.19 1.26 0.90–1.76 Caste Brahmin/ Chettri Ref - - - Dalit/ Janajati 0.56 0.42–0.76 0.65 0.46–0.91 Others 0.53 0.41–0.70 0.63 0.46–0.87 Newars 0.69 0.32–1.49 0.66 0.28–1.53 Muslims 0.68 0.46–0.98 0.77 0.50–1.18 Body mass index <18.5 1.18 0.97–1.46 1.09 0.89–1.36 18.5–24.9 Ref - - - 25–29.9 1.44 1.04–2.00 1.09 0.76–1.55 > = 30 0.83 0.33–2.03 0.57 0.23–1.45 Diet Diet diversity score < 4 0.91 0.49–1.66 1.09 0.56–2.12 Diet diversity score 4–7 0.97 0.80–1.22 1.01 0.80–1.28 Diet diversity score > = 8 Ref - - - Wealth Index < 0 0.88 0.74–1.04 1.04 0.84–1.29 > = 0 Ref - - - Odds ratios adjusted for age, level of education, occupation, caste, BMI, MUAC, wealth index and diet. Missing values– 5 (0.2%); Non-earning occupation includes housewives and female community health volunteers; Homestead occupation includes agriculture, livestock, poultry, aquaculture Missing values– 26 (0.86%) 4 2 measured in weight in kg/height in m https://doi.org/10.1371/journal.pone.0225192.t003 could be mediated by a propensity to consume a more cariogenic diet in higher socioeconomic groups. [28–30] The data on treatment history showed that women in rural Nepal had access to treatment options—both diagnostic and therapeutic. Medications were the most common treatment received. Restorative treatments such as fillings and artificial prosthetics were far less common than extractions. It is important to note, however, that while our study did not evaluate the quality of the treatment services to which respondents were referred, limited financial PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 9 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Table 4. History of pain or discomfort in the mouth and corresponding treatment over a 6 month period among women of reproductive age, Tarai, Nepal, 2015. Characteristics Counts (N = 3007) Frequency (%) History of pain/ discomfort (Yes) 528 17.6 Reasons for pain/ discomfort (n = 528) Decay 283 53.6 Swelling of gums 129 24.4 Injury to mouth 85 16.1 Others 59 11.2 Loose teeth 18 3.4 Broken or cracked teeth 11 2.1 Don’t know 2 0.4 Treatment provider (n = 284) Pharmacist/ village doctor 115 40.5 Doctor/ Dentist 119 41.9 Health worker 23 8.1 Relative/ friend 14 4.9 Traditional healer/ Shaman 13 4.5 Treatment facility (n = 284) Pharmacy 107 37.7 Dental clinic 89 31.3 Hospital 32 11.3 Primary health care center 19 6.7 Home 18 6.3 Other’s home 14 4.9 Others 5 1.8 Treatment received (n = 284) Medicine 227 79.9 Extraction 60 21.1 Tooth cleaning 42 14.8 Home remedy 27 9.5 Filling (restoration) 23 8.1 Others 11 3.8 No treatment / don’t know 5 1.8 Pain/ discomfort in mouth includes history of tooth ache, currently or in the past 6 months Includes government health worker (18), female community health volunteer (1) and non-governmental organization health worker Among the 528 women who had had pain or discomfort in their teeth in the past 6 months, 284 women sought treatment. Multiple responses (upto 3) from women to questions on reasons for pain/discomfort and treatment received, thus the ns’ done add to 528 (women who had pain/discomfort in the last 6 months) and 284 (women who received treatment) respectively https://doi.org/10.1371/journal.pone.0225192.t004 resources and health care infrastructure, and long distance to facilities with advanced dental care services in most rural areas would suggest most services provided in the Tarai are quite basic compared to those available in urban centers. [31–33] When services are sought, a recent study conducted among pregnant women in rural Nepal revealed little awareness of preventive dental services, showing that treatment seeking behavior remains driven by pain or discomfort in the oral cavity. [25] PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 10 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool This study is among the few to have gathered data on the prevalence of damaged and miss- ing teeth and treatment sought for such conditions by women in rural populations, adding new knowledge to a limited evidence base. The use of a tooth assessment module with minimal training of data enumerators enabled the collection of information needed to generate these estimates. The tool can be scaled in Nepal and adapted in other countries in the region employing similar cadres of community survey workers to collect information on oral health. [34] However, it is important to note that damaged and missing teeth are only a subset of a host of oral diseases that can be present and, thus, do not represent the total burden or extent of oral diseases in Nepal. An interviewer-administered assessment module, such as the one used in this study, has the potential to reveal the burden, however, of pain and damage in the oral cavity, guide the roll out of more sophisticated point-of-care diagnostics in low-resource environments, be applied in a standardized way for oral health assessments and provide suffi- cient information for basic oral health education. A limitation of this tool is that we were not able to collect information on restorative treatment, a proxy to dental disease history, normally collected via the DMFT index or via oral radiographs, as the recognition of restorative materi- als (metallic or tooth colored) was not included in the training for data enumerators. Another limitation to the study is the self-reported method of enumerating life time history of missing and damaged teeth, which is subject to response and recall bias, and selection bias due to the very specific inclusion criteria. Shyness, fear of stigmatization as well as lack of awareness about oral health issues may have led to discrepancies. While the study has gener- ated novel findings, future studies should cross-validate findings from this simplified assess- ment tool with methods such as the DMFT index to evaluate its use as an inexpensive method for estimating the prevalence of lost, broken, carious and dysfunctional dentition in low resource settings lacking dental services and trained dental researchers. [6] The assessment tool can further be expanded to estimate the prevalence of missing and damaged teeth and oral hygiene practices in other regions of the country. In conclusion, a primary objective of this assessment was the application of a simple survey tool to estimate the extent and severity of missing and damaged teeth in an adult female popu- lation. Our module was readily utilized by trained, lay data collectors and health care workers allowing data on clinically important oral health conditions to be collected. The findings sug- gest that missing and damaged teeth represent a major burden among women of reproductive age in the southern plains of Nepal. Supporting information S1 Fig. Randomly selected village development committees in the Tarai region of Nepal, (PDF) S2 Fig. Simulation of the oral cavity used for training field staff and to aid in data collec- tion. (PDF) S1 File. The tooth assessment module. (PDF) Author Contributions Conceptualization: Rolf D. Klemm, Keith P. West. Data curation: Binod Shrestha. PLOS ONE | https://doi.org/10.1371/journal.pone.0225192 December 3, 2019 11 / 13 Prevalence of damaged and missing teeth among women in rural Nepal—A simplified assessment tool Formal analysis: Priyanka Agrawal. Funding acquisition: Rolf D. Klemm, Keith P. West. Investigation: Rolf D. Klemm, Keith P. West. 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