versión impresa ISSN 1413-8123
Ciênc. saúde coletiva vol.16 supl.1 Rio de Janeiro ene. 2011
PRIMARY HEALTH CARE
Quality of life related to oral health: contribution from social factors
Qualidade de vida relacionada à saúde bucal: contribuição dos fatores sociais
Flávia Cohen-CarneiroI; Reinaldo Souza-SantosII; Maria Augusta Bessa RebeloI
IFaculdade de Odontologia, Universidade Federal do Amazonas. Av. Ministro Waldemar Pedrosa 1.539, Praça 14. 69025-050 Manaus AM. email@example.com
IIEscola Nacional de Saúde Pública Sergio Arouca, Fundação Oswaldo Cruz
Sociodental indicators have been widely used in epidemiological research related to oral health, as they add the dimension of the impact of oral health on the quality of life of individuals and populations. Various studies have been done in order to validate new instruments to assess these subjective perceptions, however, the association between social parameters and impact on oral health-related quality of life (OHRQoL) has not been systematically studied, thus there is still doubt as to the role of the main social variables as OHRQoL impact modulators. This study aims to systematically review the literature in order to evidence the association between six social parameters and OHRQoL. Based on six exclusion criteria, the literature search revealed 40 eligible publications for analyses. The frequency of expected (positive) association between the social parameters and OHRQoL was greater than the non-expected (negative) associations for the six parameters. Conclusions: The social conditions most clearly associated with the perception of negative impact on OHRQoL were: women, with poor education and low income, immigrants or people belonging to minority ethnic groups.
Key words: Oral health, Quality of life, Social factors, Review
Indicadores sociodentais têm sido largamente utilizados nas pesquisas epidemiológicas em saúde bucal, pois adicionam a dimensão de impacto da saúde bucal na qualidade de vida (OHRQoL) de indivíduos e populações. Inúmeros trabalhos têm sido realizados com a finalidade de validar novos instrumentos para mensurar estas percepções subjetivas; entretanto, a associação entre parâmetros sociais e OHRQoL não foi estudada de forma sistemática, havendo dúvida em relação ao papel das principais variáveis sociais como moduladores de impactos. Este estudo objetivou revisar sistematicamente a literatura para evidenciar a associação entre seis parâmetros sociais e OHRQoL. Baseados em seis critérios de exclusão, a pesquisa bibliográfica revelou quarenta artigos para análise. A frequência de associações esperadas (positivas) entre os parâmetros sociais e OHRQoL foi maior que as associações não esperadas (negativas) para os seis parâmetros. Concluiu-se que as condições sociais mais claramente associadas à percepção de impactos negativos da saúde bucal na qualidade de vida foram mulheres, de baixa escolaridade e baixa renda, imigrantes ou pessoas pertencentes a grupos étnicos minoritários.
Palavras-chave: Saúde bucal, Qualidade de vida, Fatores sociais, Revisão
Quality of life can be understood as "the degree to which a person enjoys the important possibilities of life"1. It is multidimensional and depends on: (a) the individual's external factors (i.e. social, cultural, economic and political ones); (b) health condition and health related to quality of life (i.e. symptoms, functional state and components of health perception); and (c) the individual's internal factors (i.e. biological, lifestyle, health behavior, personality and values)2. While most oral diseases are not fatal, they do lead to significant morbidity, which ends up in serious physical, social and psychological consequences that affect the patients' quality of life3.
In order to evaluate the impact of oral health on the individuals' quality of life, various socio-dental indicators have been developed and their use has become widespread4. Socio-dental indicators are measures of oral health-related quality of life and range from survival, through impairment, to function and perceptions5. They are extension measures in which dental and mouth disorders affect the normal social function and bring changes to behavior, such as work disability, school absenteeism, or inability to perform routine activities6.
The use of subjective oral health measures is supported the present understanding of what health, in its ample meaning is all about, that is, according to the WHO definition, physical, mental and social well-being.
The conceptual models of evaluation of health suggested by the WHO generated different indicators. For example, "disease-impairment-disability-handicap" model, which only incorporates negative impact on health, served as the basis of the development of OHIP (Oral Health Impact Profile). The "structure-functionability-participation" model, which incorporates both positive and negative influences on health, which was the basis of the development of OHQoL-UK (UK Oral Health Related Quality of Life)3.
The subjective measures, complementary to clinical measures of the oral health status have been considered essential to the definition of treatment needs1,7. In addition to that, they offer information that can be used to make political decisions, such as the definition of priorities in dental services and investments in dental treatment directed to the population's greatest need or to specific group of patients6.
However, the association between the socio-dental indicators and clinical condition has been considered weak and social factors have been considered as clinical factors in the explanation of an oral health outcome8,9. It is known that morbidity and mortality are strongly influenced by social factors such as age, gender, and socioeconomic status, and oral diseases are no exception10. Aging leads to more oral problems, such as tooth loss, periodontal disease and root caries11. Pathological conditions, for example, xerostomia and mouth cancer are modulated by the gender variable12,13. And social and economic deprivations are crucial to caries occurrence14.
Recently, a myriad of studies that utilize socio-dental indicators to evaluate the prevalence of subjective impacts on the quality of life of different populations have been published15-23. The evaluation instruments, in the form of standard questionnaires, have been validated to be used in various populations24-35 and, some studies are using them as an outcome measure to evaluate clinical interventions36,37. However, no summary has been made in order to answer what factors or the most serious oral problems that affect the individuals' quality of life, or rather, if the perception of subjective impacts varies according to age, gender, education, income, residential area, or other social parameters related to the population that was studied. Therefore, this literature review tries to update the studies that evaluated oral health-related quality of life (OHRQoL) of individuals and populations, trying to determine the degree of association between social factors and subjective impacts.
The methods applied in this review include the literature search strategy, inclusion and exclusion criteria of articles. After the literature search, the articles summary data were placed in a table. All the abstracts were read in order to select studies following the inclusion and exclusion criteria. When doubts persisted, the whole article was taken and analyzed. Final analyses were done after the articles were obtained.
The search for articles about oral health related quality of life was done in October 2006, utilizing SCOPUS database (http://www.scopus.com/scopus/home.url) on two steps. In the basic research form, first step, the keywords "oral health" AND "quality of life" were used in the field "Article title, Abstract OR Keywords". The document type chosen was "article" and the subject area was "health sciences". No limits regarding publishing dates were fixed. Ciência & Saúde Coletiva, 16(Supl. 1):1007-1015, 2011 After the first search, two limits were added in the advanced search form, step two: limits to indexed periodicals in subject area "Dentistry" and languages "English" OR "Portuguese" OR "Spanish".
Studies were considered for inclusion if they addressed oral health related quality of life in individuals or populations, by means of a standardised evaluation instrument (interview or questionnaire). The studies should also include some form of comparison between different social groups (social parameter - for example: age, sex, socioeconomic and sociodemographic status, ethnics).
The following publications were excluded:
. Case reports, literature reviews and theoretical essays;
. Non indexed publications books, theses and reports;
. Studies without social parameter analyses, and with only subjective evaluations (pain, perceived treatment needs, self-rated oral health);
. Studies where OHRQoL was evaluated as an endpoint to clinical trials (for example: OHRQoL before and after the implant surgery, or before and after dental treatment), which did not include social parameters;
. Studies that evaluated the connection between systemic diseases (diabetes, depression, stress, Sjogren syndrome) and OHRQoL;
. Studies without statistical analyses.
The identified social parameters were distinguished into six analysis categories: gender, age, education, income, ethnics, and residential area (urban or rural). The "income" parameter includes a series of income or economic status indicators, such as: occupation of the head of the household, health insurance, economic class categorization, degree of poverty. The parameter "ethnics" includes the immigrant condition.
Social associations were considered positive when followed an expected pattern, which were: more impact on women, elderly people, those with low education, low income, immigrants, African Americans, and those living in rural area. Social associations that didn't follow this expected pattern were considered negative. Associations that didn't have statistical significance were also identified.
The results were reported based on frequency distribution of the studies on negative, positive and non significant associations in each analyzed social parameter.
Through the basic search form, 332 articles were identified and when limits were applied in the advanced search form, 186 articles remained. 40 articles remained after the evaluation of these articles regarding inclusion and exclusion criteria.
The characteristics of the articles that correlated social parameters with subjective indicators of impact on oral health related quality of life (OHRQoL) can be seen in Tables 1 and 2. The analysis of each social category comes in the following topics.
Although 39 articles report the ratio of men and women as a sociodemographic characteristic of the studied population, only 29 studies tested the association between gender and OHRQoL impacts (Table 1). Just one article reported more perception of impact on men10, seeing that this association was more significant only in the bivariate analysis, but it disappeared from the multiple regression model. In the articles where it was found a positive association between women and OHRQoL impacts, women reported a greater number of negative impacts12,38-40, more dissatisfaction with appearance than men16, perceived more positive or negative oral impacts on their quality of life41, had more perception about the impairment related to tissue damage or mouth disease42 and to social and psychological dimension43, and reported having more chewing difficulties, pain and worries about their oral health11.
The presentation of the studies regarding age can be seen in Table 2. All of the 42 articles reported age as a sociodemographic characteristic of the studied population and 25 studies tested the association between age and OHRQoL impacts (Table 1). Among which, 7 of these studies showed a negative association, with elderly people reporting less impact than younger people.
The elderly noticed less impact regarding aesthetics and dental sensibility to hot, cold and sweet29, whilst young patients were more anxious about their dental status44. Out of 11 studies that showed a positive association between aging and more negative impacts, 410,39,45,46 showed the association was significant only in the bivariate analysis, and it became non significant after the inclusion of other co-variables in the multivariate analysis.
Out of 12 articles that correlated education and OHRQoL impacts, 10 related low education to higher levels of negative impact (Table 1), 510,11,24,39,46 kept this association only regarding bivariate analyses in the multivariate analysis, the association between education and impact became non significant.
As for income, the association between low income and more negative impacts was even clearer (Table 1). Only one article40 reported an apparently inverse association, with more perception of impact on the upper class individuals. However, this study considered both positive and negative impacts on the analysis, and the authors reported that there was more perception of positive impacts.
In 16 articles that showed a positive association between a degree of poverty and OHRQoL impacts, there were more frequent negative impacts and/ or intensity: adults living in poorer areas47 or considered poor43, individuals with lower income11,32,35,46,48,49 and belonging to a low social class8,23,48, those without health insurance39,45 and unable to pay for dental services42, children that used to study in schools located in deprived areas, and families with a greater number of children27, elderly people that received public social security21,34.
The immigrant condition was analyzed in 4 papers27,35,49,50. For all, the trend was the same: immigrants35,49,50, with less time since immigration49, or children of a foreign mother27, showed more negative OHRQoL impacts.
Out of the 7 works that studied the different ethnic origins in the same country: 3 were carried out in the UK12,19,33, 1 in Malasya25, and 3 in the USA39,42,43. From those, 2 showed a non significant association with OHRQoL impacts25,33; 1 showed more negative impacts, due to xerostomia, for white British individuals compared with non-white12; 1 showed more negative impacts on the Chinese community in the UK19; and the others showed more negative impact on the African Americans in the USA39,42,43.
Few studies tested the residential area, regardless of it being located in an urban or rural area, as a source of possible association with perception of OHRQoL impacts10,17,20,22,39,42,43. Most of the analyzed studies do not clearly describe the place or the residential area of the studied population. The studies which clearly describe the urban or rural condition, most of them only deal with the urban population18,25,27,49,51-53 and only one study exclusively evaluated a rural population, this was done on children attending primary schools in a rural area of Uganda54.
Out of the 7 studies that evaluated OHRQoL impacts related to the residential area: 4 had no significant association with OHRQoL17,20,22,43, 2 reported more impact on rural area dwellers39,42, and 1 more impact on urban residents10.
Discussion and conclusions
Most of the studies mentioned in this literature review were not designed to test associations between social parameters and the outcomes of impact on oral health-related quality of life. Most of the analyzed studies were designed for instruments validation (Table 2), which used a clinical association to the test of construct validity26. This becomes a problem especially to the analyses of social parameters, since most studies contained very homogeneous population samples compared with the analyzed factors, e.g., age16-18,32,35,49,51,52, education17,25,53 and income17,42,43,49, which requires great care when it comes to analysing these associations.
Some special associations look clearer, such as the case of the gender influence on the perception of the impacts of oral health in the quality of life. Locker11 reported that in a population sample, where women and men were not different when it comes to edentulousness, to the average number of teeth lost and to the loss of periodontal insertion, and where men showed more decayed coronary and radicular surfaces; women had more complaints about pain and ability to chew, and showed greater concern and upset about their oral health. In two other studies involving multivariate analyses, after the adjustment of the variable gender with clinical variables43 and other socio-demographic variables42, women had more social and psychological impacts. Such studies seem to show that, under similar clinical conditions, women tend to perceive more impact on their oral health-related quality of life than men. The perception of most positive impacts41, as well as the negative ones11,12,16,38-43, may show that women weigh their oral health more when they evaluate their quality of life. However, it is important to point out a great number of studies did not find significant association between gender and OHRQoL impacts on bivariate analyses (Table 1), which may show the differences in gender vary between distinct populations.
The association between age and the subjective impacts on oral health is still unclear. The hypothesis that elderly individuals would suffer more impact due to the fact they have, throughout their lives, more oral problems11 is susceptible to questioning. It seems to exist confounding or interaction between clinical factors, such as dental prosthesis, tooth loss, xerostomia, and aging10. When these clinical factors are controlled, the elderly tend to notice the negative impacts much less than the young individuals. A study conducted in Norway, with a national representative sample15, identified the presence of confounding between age and the number of teeth lost. In the stratified analysis, the adjusted OR did not differ much from the non adjusted OR, except for age. When all other variables were controlled, the association between age and the OIDP scores was reversed and statistically significant the greater the age, the less the impact. The study by Steele et al.50, with national representative samples from Australia and the UK, also reported less impact on the elderly when the co-variable keys were controlled. The authors concluded that age and tooth loss are strongly related, but have independent effects on OHRQoL. Tooth loss, which is related to aging, is related to more negative impacts; while aging independently, resulted in fewer impacts. In the study by McGrath and Bedi48, in the UK, adult individuals noticed more impact than the elderly individuals. In this study not only were the negative impacts studied, but also the positive ones, and a bigger perception was related to positive impacts (58%). This can mean that oral health to the elderly is not as worrisome as it is to younger people when it comes to general health worries. McMillan et Ciência & Saúde Coletiva, 16(Supl. 1):1007-1015, 2011 al.21 found a weak association between clinical parameters and OHRQoL impacts on the elderly in Hong Kong. The authors reported that the ratio of elderly with negative impact was low and that "they did not seem particularly bothered by their oral condition, especially when compared with other often traumatic events that had occurred in their lives. Their expectations of oral health also appeared to be low". Locker et al.55 evaluated elderly people with medical chronic conditions and physical disabilities, whose major oral problems were tooth loss and xerostomia and found weak or moderate correlations of the clinical conditions with general psychological well-being and life satisfaction, thus showing that oral health is just a factor that influences the psychological well-being of these individuals.
The associations between education, income and OHRQoL impacts seem to be well defined with poor socio-economic status low education and low income implying high levels of impact on quality of life. However, it is necessary to mention that there is an important connection between age, education, income, and the use of removable prostheses, which leads to confounding or an interaction of these variables10.
The immigrant condition, although may form a clear positive association with the OHRQoL impacts, showed interaction with the clinical factor "tooth loss" in a population sample in Australia50. Still, in this study, immigrants from countries other than the UK and Ireland and having less than 25 teeth had more OHRQoL negative impacts than non immigrants. The authors came up with the hypothesis that cultural differences could explain the marked differences of impact detected in the first generation immigrants and Australians.
In contrast, the analysis of different ethnic origins in the same country is something more complex, because the categorizations differ from country to country and there are few studies testing such an association12,19,25,33,39,42,43. Newton et al.19 described that, in general, minority ethnic groups report higher levels of dissatisfaction with their oral health than what is expected in the ethnically majority population. However, it would be prudent to analyze, in future studies, the possibility of interaction or confounding of this variable with socio-economic status.
Finally, the association analysis between the (urban/ rural) residential area and OHRQoL outcomes is made difficult by the small number of pertinent studies and multiple definitions of the "rural" and "urban" categories. In the 7 studies that tested this association, regions with fewer than 20,000 inhabitants were considered "rural" country: Germany10,20, regions with fewer than 5,000 inhabitants country: France17, university students that reported their rural origin country: Tanzania22, non metropolitan areas in the north of Florida country: the USA39,42,43. Moreover, Ettinger et al.56 described that, in the USA, the US Census Bureau define as urban, places with more than 2,500 inhabitants, being all other places considered rural. The hypothesis that individuals living in rural areas would suffer more negative OHRQoL is supported by the argument that they have much less access to health services in these areas, which would lead to the late search for treatment, due to pain42. One single study showed the occurrence of more negative impact on individuals living in urban areas10, however no explanatory hypothesis was conceived and, another study with the same population sample showed a non significant association20.
F Cohen-Carneiro contributed to the conception, methodological design, and development of the research project, analysis and interpretation of the results, and drafting of the article. R Souza-Santos contributed to the methodological design of the research project, interpretation of the results, and critical review. MAB Rebelo collaborated in the methodological design and the development of the research project.
1. Sheiham A, Steele JG, Marcenes W, Tsakos G, Finch S, Walls AWG. Prevalence of impacts of dental and oral disorders and their effects on eating among older people; a national survey in Great Britain. Community Dent Oral Epidemiol 2001; 29:195-203. [ Links ]
2. Patrick DL, Chiang YP. Measurement of health outcomes in treatment effectiveness evaluations: conceptual and methodological challenges. Med Care 2000; 38(Suppl.):II-14-II-25. [ Links ]
3. Hegarty AM, McGrath C, Hodgson TA, Porter SR. Patient-centred outcome measures in oral medicine: Are they valid and reliable? Int J Oral Maxillofac Surg. 2002; 31: 670-674. [ Links ]
4. Slade GD. Measuring oral health and quality of life. Chapel Hill: University of North Carolina/Dental Ecology; 1997. [ Links ]
5. Locker D. Measuring oral health: a conceptual framework. Community Dent Health 1988; 5: 3-18. [ Links ]
6. Leão AT, Locker D. Impacto das condições de saúde bucal na qualidade de vida. In: Antunes JLF, Peres MA, organizadores. Epidemiologia da Saúde Bucal. Rio de Janeiro: Guanabara Koogan; 2006. p. 260-268. [ Links ]
7. Sheiham A. A determinação de necessidades de tratamento odontológico: uma abordagem social. In: Pinto VG, organizador. Saúde bucal coletiva. São Paulo: Livraria Santos Editora; 2000. p. 223-250. [ Links ]
8. Leão A, Sheiham A. Relation between clinical dental status and subjective impacts on daily living. J Dent Res. 1995; 74:1408-1413. [ Links ]
9. Wong MCM, Lo ECM, McMillan AS. Validation of a Chinese version of the Oral Health Impact Profile (OHIP). Community Dent Oral Epidemiol 2002; 30:423-430. [ Links ]
10. John MT, Koepsell TD, Hujoel P, Miglioretti DL, LeResche L, Micheelis W. Demographic factors, denture status and oral health-related quality of life. Community Dent Oral Epidemiol. 2004; 32:125-132. [ Links ]
11. Locker D. The burden of oral disorders in a population of older adults. Community Dent Health. 1992; 9:109-124. [ Links ]
12. Baker SR, Pankhurst CL, Robinson PG. Utility of two oral health-related quality-of-life measures in patients with xerostomia. Community Dent Oral Epidemiol. 2006; 34:351-362. [ Links ]
13. Petersen PE. The World Oral Health Report 2003: continuous improvement of oral health in the 21st century - the approach of the WHO Global Oral Health Programme. Community Dent Oral Epidemiol 2003; 31(Suppl. 1):3-24. [ Links ]
14. Antunes JLF, Peres MA, Mello TRC, Waldman EA. Multilevel assessment of determinants of dental caries experience in Brazil. Community Dent Oral Epidemiol 2006; 34:146-152. [ Links ]
15. Astrom AN, Haugejorden O, Skaret E, Trovik TA, Klock KS. Oral Impacts on Daily Performance in Norwegian adults: The influence of age, number of missing teeth, and socio-demographic factors. Eur J Oral Sci. 2006; 114:115-121. [ Links ]
16. Klages U, Bruckner A, Zentner A. Dental aesthetics, self-awareness, and oral health-related quality of life in young adults. Eur J Orthod. 2004; 26:507-514. [ Links ]
17. Tubert-Jeannin S, Riordan PJ, Morel-Papernot A, Moulin R. Dental status and oral health quality of life in economically disadvantaged French adults. Spec Care Dentist. 2004; 24:264-269. [ Links ]
18. Perera I, Ekanayake L. Prevalence of oral impacts in a Sinhala-speaking older population in urban Sri Lanka. Community Dent Health. 2003; 20:236-240. [ Links ]
19. Newton JT, Corrigan M, Gibbons DE, Locker D. The self-assessed oral health status of individuals from White, Indian, Chinese and Black Caribbean communities in South-east England. Community Dent Oral Epidemiol. 2003; 31:192-199. [ Links ]
20. John MT, LeResche L, Koepsell TD, Hujoel P, Miglioretti DL, Micheelis W. Oral health-related quality of life in Germany. Eur J Oral Sci. 2003; 111:483-491. [ Links ]
21. McMillan AS, Wong MCM, Lo ECM, Allen PF. The impact of oral disease among the institutionalized and non-institutionalized elderly in Hong Kong. J Oral Rehabil. 2003; 30:46-54. [ Links ]
22. Masalu JR, Astrom AN. Social and behavioral correlates of oral quality of life studied among university students in Tanzania. Acta Odontol Scand. 2002; 60:353-359. [ Links ]
23. McGrath C, Bedi R. Population based norming of the UK oral health related quality of life measure (OHQoL-UK©). Br Dent J. 2002; 193:521-524. [ Links ]
24. Fernandes MJ, Ruta DA, Ogden GR, Pitts NB, Ogston S.A. Assessing oral health-related quality of life in general dental practice in Scotland: Validation of the OHIP-14. Community Dent and Oral Epidemiol. 2006; 34:53-62. [ Links ]
25. Othman WN, Muttalib KA, Bakri R, Doss JG, Jaafar N, Salleh NC, Chen S. Validation of the Geriatric Oral Health Assessment Index (GOHAI) in the Malay language. J Public Health Dent. 2006; 66:199-204. [ Links ]
26. Oliveira BH, Nadanovsky P. Psychometric properties of the Brazilian version of the Oral Health Impact Profile - Short form. Community Dent Oral Epidemiol. 2005; 33:307-314. [ Links ]
27. Tubert-Jeannin S, Pegon-Machat E, Gremeau-Richard C, Lecuyer M.-M, Tsakos G. Validation of a French version of the Child-OIDP index. Eur J Oral Sci. 2005; 113:355-362. [ Links ]
28. Foster Page LA, Thomson WM, Jokovic A, Locker D. Validation of the Child Perceptions Questionnaire (CPQ11-14). J Dent Res. 2005; 84:649-652. [ Links ]
29. Hagglin C, Berggren U, Lundgren J. A Swedish version of the GOHAI index: Psychometric properties and validation. Swed Dent J. 2005; 29:113-124. [ Links ]
30. Kushnir D, Zusman SP, Robinson PG. Validation of a Hebrew version of the oral health impact profile 14. J Public Health Dent. 2004; 64:71-75. [ Links ]
31. Dini EL, McGrath C, Bedi R. An evaluation of the oral health quality of life (OHQoL) instrument in a Brazilian population. Community Dent Health. 2003; 20:40-44. [ Links ]
32. Tubert-Jeannin S, Riordan PJ, Morel-Papernot A, Porcheray S, Saby-Collet S. Validation of an oral health quality of life index (GOHAI) in France. Community Dent Oral Epidemiol. 2003; 31:275-284. [ Links ]
33. Robinson PG, Gibson B, Khan FA, Birnbaum W. Validity of two oral health-related quality of life measures. Community Dent Oral Epidemiol. 2003; 31:90-99. [ Links ]
34. Wong MC, Liu JK, Lo EC. Translation and validation of the Chinese version of GOHAI. J Public Health Dent. 2002; 62:78-83. [ Links ]
35. Slade GD. Derivation and validation of a short-form oral health impact profile. Community Dent Oral Epidemiol. 1997; 25:284-290. [ Links ]
36. Hyde S, Satariano WA, Weintraub JA. Welfare dental intervention improves employment and quality of life. J Dent Res. 2006; 85:79-84. [ Links ]
37. Allen PF, McMillan AS. A longitudinal study of quality of life outcomes in older adults requesting implant prostheses and complete removable dentures. Clin Oral Implants Res. 2003; 14:173-179. [ Links ]
38. Mason J, Pearce MS, Walls AWG, Parker L, Steele JG. How do factors at different stages of the life course contribute to oral-health-related quality of life in middle age for men and women? J Dent Res. 2006; 85:257-261. [ Links ]
39. Peek CW, Gilbert GH, Duncan RP. Predictors of chewing difficulty onset among dentate adults: 24-month incidence. J Public Health Dent. 2002; 62:214-221. [ Links ]
40. Astrom AN, Haugejorden O, Skaret E, Trovik TA, Klock KS. Oral impacts on daily performance in Norwegian adults: Validity, reliability and prevalence estimates. Eur J Oral Sci. 2005; 113:289-296. [ Links ]
41. McGrath C, Bedi R. Measuring the impact of oral health on life quality in two national surveys-functionalists versus hermeneutic approaches. Community Dent Oral Epidemiol. 2002; 30:254-259. [ Links ]
42. Chavers LS, Gilbert GH, Shelton BJ. Racial and socioeconomic disparities in oral disadvantage, a measure of oral health-related quality of life: 24-month incidence. J Public Health Dent. 2002; 62:140-147. [ Links ]
43. Gilbert GH, Duncan RP, Heft MW, Dolan TA, Vogel WB. Oral disadvantage among dentate adults. Community Dent Oral Epidemiol. 1997; 25:301-313. [ Links ]
44. Reisine ST, Fertig J, Weber J, Leder S. Impact of dental conditions on patients' quality of life. Community Dent Oral Epidemiol. 1989; 17:7-10. [ Links ]
45. Brennan DS, Spencer AJ. Comparison of a generic and a specific measure of oral health related quality of life. Community Dent Health. 2005; 22:11-18. [ Links ]
46. Savolainen J, Suominen-Taipale A-L, Hausen H, Harju P, Uutela A, Martelin T, Knuuttila M. Sense of coherence as a determinant of the oral health-related quality of life: A national study in Finnish adults. Eur J Oral Sci. 2005; 113:121-127. [ Links ]
47. Sanders AE, Spencer AJ, Slade GD. Evaluating the role of dental behaviour in oral health inequalities. Community Dent and Oral Epidemiol. 2006: 34:71-79. [ Links ]
48. McGrath C, Bedi R. Why are we 'weighting' an assessment of a self-weighting approach to measuring oral health-related quality of life? Community Dent Oral Epidemiol. 2004; 32:19-24. [ Links ]
49. Swoboda J, Kiyak HA, Persson RE, Persson GR, Yamaguchi DK, MacEntee MI, Wyatt CCL. Predictors of oral health quality of life in older adults. Spec Care Dentist. 2006; 26:137-144. [ Links ]
50. Steele JG, Sanders AE, Slade GD, Allen PF, Lahti S, Nuttall N, Spencer AJ. How do age and tooth loss affect oral health impacts and quality of life? a study comparing two national samples. Community Dent Oral Epidemiol. 2004; 32:107-114. [ Links ]
51. Hassel AJ, Koke U, Schmitter M, Rammelsberg P. Factors associated with oral health-related quality of life in institutionalized elderly. Acta Odontol Scand 2006; 64:9-15. [ Links ]
52. Oliveira CM, Sheiham A. The relationship between normative orthodontic treatment need and oral health-related quality of life. Community Dent Oral Epidemiol. 2003; 31:426-436. [ Links ]
53. Ng SKS, Leung WK. Oral health-related quality of life and periodontal status. Community Dent and Oral Epidemiol. 2006; 34:114-122. [ Links ]
54. Robinson PG, Nalweyiso N, Busingye J, Whitworth J. Subjective impacts of dental caries and fluorosis in rural Ugandan children. Community Dent Health. 2005; 22:231-236. [ Links ]
55. Locker D, Matear D, Stephens M, Lawrence H, Fayne B. Comparison of the GOHAI and OHIP-14 as measures of the oral health-related quality of life of the elderly. Community Dent Oral Epidemiol. 2001; 29:373-381. [ Links ]
56. Ettinger RL, Warren JJ, Levy SM, Hand JS, Merchant JA, Stromquist AM. Oral health: Perceptions of need in a rural Iowa county. Spec Care Dentist. 2004; 24:13-21. [ Links ]
Artigo apresentado em 31/07/2008
Aprovado em 11/12/2008
Versão final apresentada em 11/01/2009