INTRODUCTION
Numerous professionals have focused on the importance of identifying Oral mucosal lesions (OMLs), during routine dental treatments. Therefore, epidemiological studies designed to understand the prevalence and incidence of OMLs have been undertaken, which contribute to identifying risk factors in different populations. Ali et al 1 conducted a study to determine the number, types and location of OMLs in patients attending the Admission Clinic at Kuwait University Dental Center, designed to identify risk factors for oral lesions. Oral lesions were divided into six major groups: white, red, pigmented, ulcerative, exophytic and miscellaneous. A total 530 subjects were screened, of whom 308 presented one or more lesions, mainly in the age group of 40 years, and more often associated to smokers than non-smokers. Pentenero et al. 2 carried out a retrospective study on 4,098 subjects in an adult population from Turin (Italy), analyzing the association between OMLs and tobacco, alcohol consumption and removable denture wearing. The results showed that tobacco and alcohol was linked with higher prevalence of OMLs, in particular candidiasis, traumatic and frictional lesions. Mehrotra et al . 3 determined the prevalence of oral soft tissue lesions in 3,030 subjects from a semi-urban district in Vidisha (India). They explored not only the prevalence, but also attempted to correlate numerous risk factors. Carrard et al. 4 conducted a cross-sectional study in an urban population in southern Brazil to assess the prevalence of OMLs based on a multivariable risk assessment of demographic, socioeconomic, behavior and oral risk indicators, concluding that this population needed OMLs prevention and treatment. Their findings on potentially malignant oral lesions were related to smoking, alcohol and socioeconomic disparities. Amadori et al. 5 analyzed OMLs in adolescents in a retrospective cross-sectional study. A total 1,544 cases were registered with 36 different OMLs types, and included healthy and systemic disease. Rivera et al. 6 also documented a retrospective study to evaluate the frequency of OMLs in an elderly Chilean population. They used the WHO epidemiological guide for oral disease, finding and classifying 277 lesions. Prinyanka et al . 7 documented that the prevalence of mucosal lesions among alcohol-dependent subjects was 31.5%, which was higher than in the controls (25%). Ottapura et al. 8 reported the prevalence of OMLs in association to tobacco among migrant workers, showing that current use of smoked tobacco, smokeless tobacco and alcohol was 41.8%, 71.7% and 56.6%, respectively. OMLs were seen in 36.3% of participants and 44.6% of the smokeless tobacco users presented lesions. Additionally, the lesions were more common among current alcohol users (42.8%) than non-users (12.3%). To the best of our knowledge, there are no previous published data on the epidemiological evaluation ofOMLs in adult subjects from Dominican Republic. The purpose of this study was to evaluate the prevalence of OMLs in an adult population from eight communities in Santo Domingo, Dominican Republic. This study represents the first screening-based research conducted in the country, and it will contribute to understanding and preventing OMLs.
MATERIALS AND METHODS
This study was conducted in accordance with the Declaration of Helsinki (1975), as revised in 2013, and reviewed and approved by the National Committee of Bioethics (CONABIOS) (Protocol # 042-2016), Santo Domingo, Dominican Republic.
Participants
The total population consisted of 751 subjects from eight different communities in Santo Domingo, Dominican Republic. The researchers visited the selected neighborhoods to define an appropriate study setting and distribute invitation flyers to residents. Individuals that accepted the invitation to participate in an oral screening visited the clinical facilities. To participate in the study, subjects had to meet the following inclusion criteria: good general health, 18 years of age or older. 248 individuals met the inclusion criteria and were clinically examined from October 2016 to January 2017. A questionnaire was used to record sociodemographic factors, including occupation, socioeconomic level, level of education, age and gender. Other risk factors such as tobacco consumption (active or current smoker, former smoker or never smoker), as well as the frequency of smoking and other forms of tobacco consumption; alcohol use, independently or in combination, and types of alcohol (rum, wine, whisky, beer, liqueur) as form of alcohol exposure were investigated. Other factors such as denture wearing or prosthesis were also recorded.
Clinical examination
A systematic intraoral clinical examination was conducted by a single examiner who is specialist in the area of Oral Medicine and Pathology. The examination was performed using dental light, mirror, spatulas and gauze. The clinical diagnosis was established and classified according to the epidemiology guide for the diagnosis of oral mucosal diseases (ICD-WHO) 9 . Correlation with risk factors was assessed. The following items were assessed during the clinical examination: appearance of the lesion, anatomical location, extension, dental status, trauma, use of prosthesis and whether the prosthesis was well adapted. In addition, cases requiring further examination or biopsies were referred to the Department of Periodontology, School of Dentistry, Pontificia Universidad Católica Madre y Maestra, Santo Domingo, Dominican Republic for definitive diagnosis.
Statistical analysis
The data was tabulated using Microsoft Office Excel®2016, and processed for analysis using StataIC®14.0. Quantitative variables were expressed as mean and standard deviation (± SD) and qualitative variables were summarized as percentages (%). Proportions were compared using the Chi Square Test (X2) and quantitative values were compared using the Mann Whitney U-Test. All statistical analyses were performed at a level of 95%, considering a p-value of < 0.05 as statistically significan!
RESULTS
Of the total 248 clinically evaluated subjects, 138 (55.6%) were female, and 110 (44.4%) were male. The minimum age was 18 and the maximum was 86 years, with mean value 42.48 years (SD ± 16.55). In relation to risk factors, tobacco use was reported by 26.2 % of the examined subjects, of whom 75.4% were cigarette smokers. Other types of tobacco consumption were “hookah”, which is a mixture of tobacco and herbs smoked in a pipe, cigars (“puros”) and pipe ( Fig. 1 ). Only 44 subjects answered the question on how long they had been using tobacco, and an average of 21.56 years was recorded (SD ± 15.80).
Alcohol consumption was reported by 63.7% of subjects, beer being the most popular drink, followed by rum, wine, whisky and “aguardiente”; all of them reported drinking at least once a week ( Fig. 2 ).
Use of removable dentures/ prosthesis was reported by 1.3 % of the study population.
Table 1 shows the distribution of the evaluated subjects according to the geographical location of the communities within Santo Domingo area. The distribution was homogeneous, so all regions were equally represented.
A total 228 out ofthe 248 evaluated subjects (91.9%) exhibited 1 or more OMLs, with a range of 1 to 7 lesions per patient and a mean of 3 lesions ( Table 2 ). Physiologic melanin pigmentation was the most frequently found entity, followed by palatal / mandibular tori. Potentially malignant disorders detected were Oral Leukoplakia, Oral Lichen Planus and Actinic Cheilitis, corresponding to 2.2 %, 0.3 % and 0.3 %, respectively, of the total lesions detected ( Table 3 ). Fig. 3 shows examples of clinical features of the diagnosed lesions.
Regarding the anatomical site of the OMLs, mandibular gingiva was the most frequent site, followed by maxillary gingiva, oral mucosa, hard palate and tongue ( Table 4 ). When OMLs clinical diagnosis was correlated with anatomical sites, Oral Leukoplakia and buccal sulcus, on both upper and lower jaws, were positively associated (p< 0.05). Additionally, other positive associations were found among subjects in the non-pathological conditions group: physiologic melanin pigmentation associated to maxillary and mandibular gingiva, exostosis associated to maxillary gingiva, Fordyce granules associated to oral mucosa and upper lip, and Palatal Torus associated to hard palate, all showing statistically significant association (p<0.05).
DISCUSSION
The current study revealed that tobacco in general was as a risk factor in 26.2% of the study population, with cigarette smoking being the most common form. Interestingly, other forms of tobacco use such as smokeless tobacco, documented in previous reports from the literature and related to oral lesions in other countries, especially in the Asian subcontinent (Mehrota etal 3 ), were not recorded in the eight communities examined in Santo Domingo. In addition, the practice of “inverted” cigarette smoking, which is relatively common in some Latin American countries, specifically in South America, Venezuela and Colombia 10 , was not observed in this Caribbean population either. The present study results regarding tobacco use as a risk factor are similar to those of previous investigations in Kuwait and India 1 , 3 and contrary to Ottapura et al. 8 , who reported high prevalence of smokeless tobacco use. Another risk factor considered in this study was alcohol consumption. Beer was found to be the commonest form used on a weekly basis. Other alcohol forms included rum, wine, whisky and, less frequently, “aguardiente”. Prinyanka et al. 1 analyzed the prevalence of OMLs in alcohol-dependent and non-alcohol dependent subjects, finding a 31.5% increased risk of oral lesions in alcohol dependent subjects. Among potentially malignant oral lesions in the Prinyanka study, oral leukoplakia was the most frequently observed, followed by Submucous fibrosis, Eritroplakia and Candidiasis. In the present study, Oral Leukoplakia was also the most frequently observed potentially malignant lesion. Oral lichen planus (OLP) and Actinic Cheilitis were also observed. Regarding the clinical observation of Oral Lichen Planus, only the clinical reticular variant of OLP of bilateral occurrence on the oral mucosa was found.
In our study, the age range of patients with OMLs was 18 to 86 years, with mean age 42.48. Other prevalence studies on OMLs have reported a broader age range, including children and adolescents 1 , 5 . Rivera et al. 6 documented higher occurrence of OMLs in an elderly Chilean population. Mujica and Rivera 11 studied a 60- to 74-year-old group of institutionalized patients, finding OMLs mainly associated to trauma caused by dentures.
Raposo et al . 12 documented the prevalence of OMLs at a reference hospital in Temuco, Chile, in 300 patients over 20 years of age, finding frequencies of Fordyce granules 30%; Atrophic candidiasis 14.33%; Melanotic macule 13.67%; Lingual varicosities 7.33%; Physiologic pigmentation 6%; Pigmented nevus 4%; Ephelides 3.33%; Traumatic ulcers 4%; Oral leukoplakia 3% and Angular cheilitis 2.68%. These results agree with the present study, where non-pathological conditions were the most prevalent. These authors also showed a statistically significant association between increasing age and the presence of Atrophic candidiasis, Traumatic ulcers and Lingual varicosities. For gender distribution, our study found a slight female preponderance. This is similar to a previous report by Casnati et al . 13 which analyzed an urban adult population of Uruguay. These authors also report a correlation of Oral Leukoplakia with “yerba mate” consumption, a common practice in some South American countries such as Uruguay and Argentina. This specific type of consumption was not observed in the evaluated Dominican population.
In the present study, the predominant location observed was on mandibular gingiva, followed by maxillary gingiva, oral mucosa and hard palate as the commonest sites. This particular finding could be related to the presence of Physiological melanin pigmentation, a relatively common condition observed in the study population due to ethnic factors. In contrast, another study by Mehrota et al . 3 reported other anatomical sites such as oral mucosa as being the most frequent location for OMLs. Non-pathological conditions such as Physiologic melanin pigmentation, palatal/mandibular tori and Fordyce granules were more frequent than pathological lesions. Among the latter, those associated to the use of dentures, as Denture Stomatitis, Smoker’s palate (Nicotine Stomatitis) and Inflammatory conditions such as plaque-related gingivitis and pericoronitis were the most frequently found. Among the potentially malignant disorders, Oral Leukoplakia was the most frequent lesion, followed by Oral Lichen planus and Actinic cheilitis. It is worth noting that neither Oral Squamous Cell Carcinoma, the most common form of oral cancer, nor other forms of malignancies were detected in this investigation. A low frequency of oral cancer was also detected in other populations. Kansky et al. 14 documented only 9 cases of Oral Cancer in a sample of 2395 people in Slovenia. The fact that no evidence of malignancy was observed in this oral screening in the Dominican Republic deserves further studies, including evaluation of numerous risk factors as well as genetic and nutritional conditions.
When the OMLs were correlated with different anatomical sites, Oral Leukoplakia was positively associated to oral mucosa or sulcus (p<0.05). Additionally, other significant positive associations were observed in the category of non-pathological conditions, such as between Benign migratory glossitis and tongue, physiological melanin pigmentation and maxillary and mandibular gingiva, exostosis and maxillary gingiva, Fordyce granules and oral mucosa and upper lip, Palatal Torus and hard palate. These results agree with those previously reported by Bhatnagar et al 5 on the frequency of non-pathological alterations.
The use of dental prostheses is associated with an increase in OMLs. In our study, the proportion of patients with prostheses was low (1.3%), nevertheless, some reactive inflammatory lesions such as Fibrous Hyperplasia, Denture Stomatitis and Inflammatory Papillary Hyperplasia were detected. Our findings agree with previous studies by Yin et al 6 in an oral survey from the Sichuan Province, China, where the incidence of dental prosthesis use was 51.75%, with high prevalence of recurrent aphthous ulcers, oral lichen planus, Inflammatory Papillary Hyperplasia and Fibrous Hyperplasia.
The limitations of the present study should be acknowledged: it did not analyze socioeconomic level, which includes defined criteria of classification and not only income of the participant population, as well as nutritional factors, including validation of a food frequency questionnaire and anthropometric evaluation. Further studies on oral cancer screening and early detection should be implemented in this population. Because no data on oral cancer frequency have been reported previously in this population, no comparison could be made.
To the best of our knowledge, there are no preliminary published data on the epidemiological evaluation of OMLs in adults from Dominican Republic. This is the first screening-based research contributing to the understanding of the prevalence and severity of OMLs in the Dominican Republic and identifying risk factors in this population. The present study also provides baseline data for future studies for improving oral health in the country. Further screening studies in this population should include diet, nutrition, and socioeconomic factors that may influence the presence of OMLs.
Another advantage of this type of study is that it provides an exceptional opportunity for dentists to educate patients on the link between smoking and oral potentially malignant lesions.