Prevalence and factors associated with orolabial lesions in beach workers

Lucena, Eudes Euler de Souza; Costa, Danielle Clarisse Barbosa; Silveira, Éricka Janine Dantas da; Lima, Kenio Costa de

doi:10.1590/S0034-89102012000600015

Abstracts

OBJECTIVE: To assess the prevalence and factors associated with orolabial lesions caused by sun exposure in beach workers. METHODS: Cross-sectional study with 362 beach workers from five urban beaches in the city of Natal, northeastern Brazil, from August to December 2010. All subjects completed a validated questionnaire to collect personal, occupational, and health-related information and underwent an orolabial clinical examination by trained examiners. Potential associations between sociodemographic, occupational, and health-related variables and the presence of orolabial lesions were assessed using the chi-square test at a 5% significance level. The multivariate analysis was performed using Poisson regression. RESULTS: Of the 362 workers examined, 27.1% had orolabial lesions. Of these, 76.8% were males, 61.6% dark or black skinned, 94.5% informal workers, and 85.4% reported sun exposure. Most (81.1%) reported using sun protection methods including sunscreen (38.7%), lip balm (15.3%), and cap/hat (72.4%). Twenty-eight percent reported smoking and 48% regular drinking. Sun protection with cap/hat was associated with orolabial lesions caused by sun exposure. CONCLUSIONS: There was found a high prevalence of orolabial lesions in workers exposed to sunlight that was associated with the use of a cap/hat as a sun protection method.

Lip Diseases; epidemiology; Occupational Exposure; Ultraviolet Rays; adverse effects; Bathing Beaches; Occupational Health

OBJETIVO: Analisar a prevalência de lesões labiais decorrentes da exposição solar e potenciais associações em trabalhadores de praia. MÉTODOS: Estudo transversal com 362 trabalhadores de cinco praias urbanas em Natal, RN, de agosto a dezembro de 2010. Os participantes responderam um questionário validado com dados pessoais, de ocupação e de saúde e passaram por exame clínico dos lábios feito por pesquisadores calibrados. As possíveis associações das variáveis sociodemográficas, ocupacionais e de saúde geral com a presença de lesões labiais foram avaliadas pelo teste do qui-quadrado para um nível de significância de 5%. A análise multivariada foi feita utilizando-se a regressão robusta de Poisson. RESULTADOS: Dos trabalhadores examinados, 27,1% apresentavam lesões labiais. Desses, 76,8% eram do sexo masculino; 61,6% tinham pele morena ou negra; 94,5% trabalhavam informalmente; e 85,4% trabalhavam expostos ao sol. A maioria (81,1%) relatou uso de algum tipo de fotoproteção: protetor solar (38,7%); protetor labial (15,3%); boné/chapéu (72,4%). Aproximadamente 28% eram fumantes e 48% consumiam álcool regularmente. A fotoproteção com uso de boné/chapéu foi associada à presença de lesões labiais decorrentes da exposição solar. CONCLUSÕES: Observou-se alta prevalência de lesões labiais nos indivíduos expostos ao sol, a qual foi associada ao uso de boné/chapéu como forma de fotoproteção.

Doenças Labiais; epidemiologia; Exposição Ocupacional; Raios Ultravioleta; efeitos adversos; Praias; Saúde do Trabalhador

OBJETIVO: Analizar la prevalencia de lesiones labiales productos de la exposición solar y potenciales asociaciones en trabajadores de playa. MÉTODOS: Estudio transversal con 362 trabajadores de cinco playas urbanas en Natal, RN, Brasil, de agosto a diciembre de 2010. Los participantes respondieron un cuestionario validado con datos personales, de ocupación y de salud y se evaluaron a través de exámenes clínicos realizados por investigadores calibrados. Las posibles asociaciones de las variables sociodemográficas, ocupacionales y de salud general con la presencia de lesiones labiales se evaluaron por medio de la prueba de Chi-cuadrado para un nivel de significancia de 5%. El análisis multivariado fue realizado utilizándose la regresión robusta de Poisson. RESULTADOS: De los trabajadores examinados, 27,1% presentaban lesiones labiales. De estos, 76,8% eran del sexo masculino; 61,6% tenían piel morena o negra; 94,5% trabajaban informalmente y 85,4%, expuestos al sol. La mayoría (81,1%) relató uso de algún tipo de fotoprotección: protector solar (38,7%); protector labial (15,3%); gorra/sombrero (72,4%). Aproximadamente 28% eran fumadores y 48% consumían alcohol regularmente. La fotoprotección con uso de gorra/sombrero fue asociada a la presencia de lesiones labiales productos de la exposición solar. CONCLUSIONES: Se observó alta prevalencia de lesiones labiales en los individuos expuestos al sol y esta se asoció al uso de gorra/sombrero como forma de fotoprotección.

Enfermedades de los Lábios; epidemiología; Exposición Profesional; Rayos Ultravioleta; efectos adversos; Playas; Salud Laboral

ORIGINAL ARTICLES

Prevalence and factors associated with orolabial lesions in beach workers

Prevalencia de lesiones labiales en trabajadores de playa y factores asociados

Eudes Euler de Souza Lucena^I; Danielle Clarisse Barbosa Costa^II; Éricka Janine Dantas da Silveira^I; Kenio Costa de Lima^I

^IDepartamento de Odontologia. Universidade Federal do Rio Grande do Norte. Natal, RN, Brasil

^IIPrograma de Residência em Cirurgia e Traumatologia Bucomaxilofacial. Departamento de Odontologia. Universidade Federal do Rio Grande do Norte. Natal, RN, Brasil

^{Correspondence} Correspondence: Eudes Euler de Souza Lucena Rua Professor Boanerges Soares, Pitimbu, 155 59067-730 Natal, RN, Brasil E-mail: eudeseuler@hotmail.com

ABSTRACT

OBJECTIVE: To assess the prevalence and factors associated with orolabial lesions caused by sun exposure in beach workers.

METHODS: Cross-sectional study with 362 beach workers from five urban beaches in the city of Natal, northeastern Brazil, from August to December 2010. All subjects completed a validated questionnaire to collect personal, occupational, and health-related information and underwent an orolabial clinical examination by trained examiners. Potential associations between sociodemographic, occupational, and health-related variables and the presence of orolabial lesions were assessed using the chi-square test at a 5% significance level. The multivariate analysis was performed using Poisson regression.

RESULTS: Of the 362 workers examined, 27.1% had orolabial lesions. Of these, 76.8% were males, 61.6% dark or black skinned, 94.5% informal workers, and 85.4% reported sun exposure. Most (81.1%) reported using sun protection methods including sunscreen (38.7%), lip balm (15.3%), and cap/hat (72.4%). Twenty-eight percent reported smoking and 48% regular drinking. Sun protection with cap/hat was associated with orolabial lesions caused by sun exposure.

CONCLUSIONS: There was found a high prevalence of orolabial lesions in workers exposed to sunlight that was associated with the use of a cap/hat as a sun protection method.

Descriptors: Lip Diseases, epidemiology. Occupational Exposure. Ultraviolet Rays, adverse effects. Bathing Beaches. Occupational Health.

RESUMEN

OBJETIVO: Analizar la prevalencia de lesiones labiales productos de la exposición solar y potenciales asociaciones en trabajadores de playa.

MÉTODOS: Estudio transversal con 362 trabajadores de cinco playas urbanas en Natal, RN, Brasil, de agosto a diciembre de 2010. Los participantes respondieron un cuestionario validado con datos personales, de ocupación y de salud y se evaluaron a través de exámenes clínicos realizados por investigadores calibrados. Las posibles asociaciones de las variables sociodemográficas, ocupacionales y de salud general con la presencia de lesiones labiales se evaluaron por medio de la prueba de Chi-cuadrado para un nivel de significancia de 5%. El análisis multivariado fue realizado utilizándose la regresión robusta de Poisson.

RESULTADOS: De los trabajadores examinados, 27,1% presentaban lesiones labiales. De estos, 76,8% eran del sexo masculino; 61,6% tenían piel morena o negra; 94,5% trabajaban informalmente y 85,4%, expuestos al sol. La mayoría (81,1%) relató uso de algún tipo de fotoprotección: protector solar (38,7%); protector labial (15,3%); gorra/sombrero (72,4%). Aproximadamente 28% eran fumadores y 48% consumían alcohol regularmente. La fotoprotección con uso de gorra/sombrero fue asociada a la presencia de lesiones labiales productos de la exposición solar.

CONCLUSIONES: Se observó alta prevalencia de lesiones labiales en los individuos expuestos al sol y esta se asoció al uso de gorra/sombrero como forma de fotoprotección.

Descriptores: Enfermedades de los Lábios, epidemiología. Exposición Profesional. Rayos Ultravioleta, efectos adversos. Playas. Salud Laboral.

INTRODUCTION

Occupational exposure to the sun has been related to some types of skin and lip diseases.^1,9,20 Repeated and prolonged exposure to the sun over decades can result in changes in the skin and the development of potentially malignant lesions.²¹,^ª a Ministério da Saúde (BR), Instituto Nacional do Câncer. Estimativas da incidência e mortalidade por câncer no Brasil para 2010. Rio de Janeiro: INCA; 2009 ,^b b Sociedade Brasileira de Dermatologia. Campanha Nacional de Prevenção contra o Câncer de Pele [cited 2011 feb]. Available from: http://sbd.tempsite.ws/capele/gestao/relatorios.asp?campanha=1

Even with the huge volume of data and studies on lesions to the mucous membrane of the lip due to sun exposure, the pathogenesis of this disease is still not clear. There is a consensus that it's development is not a simple process. The natural history of this disease is the result of various intrinsic and extrinsic risk factors to human beings, which act independently, antagonistically or in synergy to produce, or not, alterations in the skin. Potentially malignant lesions may develop into invasive cancers as the result of long, repeated and intermittent exposure to these risk factors.

Workers of various occupational groups are more susceptible to photodamage. Those who work in the open air can receive doses of UV radiation six to eight times greater than those who work indoors.¹² consequently, they are more subject to the appearance of lesions on their skin and lips. "Outdoor workers" are associated with greater risk of being affected by squamous cell carcinoma and possibly other forms of skin cancer.^6,7,10,14,19 This epidemiological knowledge is not sufficiently exploited as a base for occupational health preventative programmes in the workplace.¹²

The need to understand and analyse factors related to developing the disease requires to knowledge of the socio-economic, environmental and political conditions which determine the health-disease process of a given community. Instead of considering only etiological factors and risks, which are restricted to biological aspects of an individual character, studies should focus on the determining characteristics of the groups.¹³

This study aims to analyse the prevalence of lip sores due to sun exposure in beach workers and the associated factors.

METHODS

This was a transversal study with 362 beach workers from five urban beaches in the municipality of Natal, RN, Northeast Brazil, which took place between August and December 2010. The workers responded to a previously validated questionnaire with information about their personal details, their occupation and their health.

The validation process was comprised of three stages: validation of content based on the literature; bibliographical research regarding the presentation of the variables in the research; questionnaire sent to stomatologists, dermatologists and epidemiologists who analysed whether the questions were consistent with the objectives of the study. If there were inconsistencies, they were able to make recommendations or suggest alterations. The instrument was culturally adapted to the universe of the study. In the two weeks before the research took place, as part of the validation process, beach workers were questioned as to their understanding of the questionnaire.

The workers underwent clinical exams of the upper and lower lip in a clockwise direction, carried out by trained researchers. Cameras were used to magnify images in order to improve the visibility of the lips and confirm diagnosis. The clinical exam considered: dryness, atrophy, scaly lesions, lip swelling, erythema, ulceration, blurred demarcation between the lip and the surrounding skin, marked creases around the lips, white marks, scabs, stained or pale areas.

Professors from the Department of Dentistry and Dermatology of the Universidade Federal do Rio Grande do Norte were enlisted to train the field workers in order to ensure uniform and consistent interpretation of the standard criteria for collecting data. These instructors gave workshops to train the examiners. The result of the training process, measured by the kappa coefficient, varied between 0.68 and 1.00. Eight students from the dentistry course were responsible for diagnosing lip lesions.

The sample was made up of adults of both sexes who were directly and indirectly exposed to the sun. A pilot study was carried out, due to lack of quantitative estimates of the number of people who worked on the beaches. Two researchers went to the data collection locations on two weekends and observed 1,200 individuals working in the areas involved in the study. A sample of 120 people (10% of the universe) was selected for the pilot study. The sample came to be 355 individuals based on the prevalence of lip lesions (36.6%) verified in the pilot study, considering a margin of error of 15% and a 20% no-response rate.

The independent variables analysed were: sex, age, income (in R$), level of education, type of work, weekly frequency of exposure to the sun, time exposed to the sun daily, accumulated time exposed to the sun and measures taken to protect themselves from the sun on an occupational level.

Data was collected on health, habits (alcohol and tobacco consumption) and skin type according to the classification by Fitzpatrick.¹¹ The dependent variable of the study was the presence of skin lesions.

The data collected was inputted into STATA 10.0 software. We carried out descriptive analysis on all the data relative to the dependent and independent variables, Chi-squared statistical tests and calculated prevalence ratios and the respective confidence intervals. The multiple analysis was carried out using robust Poisson regression for the parameter of the hybrid method to estimate the prevalence ratios for lip lesions adjusted for sex, age, type of work, measures taken to protect from the sun, using lip balm with SPF, using a hat/cap, skin type and tobacco and alcohol consumption. A level of significance of 5% was adopted for all of the tests.

The participants all signed consent forms. This research was approved by the Ethical Research Committee of the Universidade Federal do Rio Grande do Norte (Protocol nº 122/09).

RESULTS

The majority of the workers were male (72.6%), approximately 40 years old, with an average monthly income of $ 510.00 (US$ 245.19) and had on average spent six years in the education system. They had been working outdoors, directly exposed to the sun for six hours a day, five days a week for eight years (Table 1).

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Among those individuals diagnosed with lip lesions, the majority (76.8%) were men and were older than the mean age of the sample. Those with lip lesions had low levels of education and an average income similar to that of the sample; 85.4% worked in direct exposure to the sun; 94.5% were casual workers and had accumulated and daily times exposed to the sun similar to the total study population (Table 2).

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The greater part of the workers reported using solar protection, but we observed that 61.3% and 84.7% respectively did not use sun cream or lip balm with SPF. Approximately a quarter of the sample smoked and 40.1% consumed alcoholic beverages.

412 lesions were diagnosed. The majority of the individuals were dark or black-skinned and approximately a quarter were affected by lip lesions (upper and lower lip). Actinic cheilitis (AC) and Ephelides were the most prevalent type of lip lesion; erythroplasia and lip carcinoma were the least common (Figure).

The majority of the workers who smoked or consumed alcohol and had white skin were diagnosed with some kind of lip lesion. Those who consumed alcoholic beverages once or more in the preceding 30 days had 35% more lesions when compared to those who never drank alcohol. The use of a hat/cap as means of protection from the sun was linked to the presence of lip lesions in the workers irrespective of sex, age, type of work, use of sunscreen, use of lip balm with SPF, skin type and tobacco and alcohol consumption. Workers who reported using them had 39% more lesions compared to those who never used a hat/cap (Table 3).

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DISCUSSION

Approximately a quarter of the workers were affected by lip lesions, which concords with their work history according to exposure to the sun and possibly inadequate means of solar protection. Camposi and Margiotta (2001)⁵ diagnosed potentially malignant lesions in 118 inhabitants of a Mediterranean island and observed AC in 4.2% of individuals. Greater prevalence was observed in a study by Silva et al (2006),¹⁷ which examined 111 fishermen from fishing communities in Florianópolis, SC, and diagnosed 43.2% with cases of AC. The inclusion criteria for the sample, as well as occupations related to local conditions, may explain different incidences. Zanetti et al22 (2009) reported prevalence of AC approximate to that of this study (15.7%) diagnosing AC in 18.1% of the 420 individuals examined during a Public Health Campaign in the city of Campinas, SP, in 2005.

The majority of the workers who made use of some kind of protection from UV radiation showed similar incidence of lesions to those individuals who did not take any measures to protect themselves, with the exception of workers who used hats/caps. The way in which these measures were adopted is important in understanding the appearance of lesions.

El Sayed et al observed that the prevalence of sunburn was greater among young people using sunscreen, a fact that has also been found in other studies. The majority of individuals diagnosed with lesions were using sunscreen at the time the research was carried out, suggesting inadequate use as suggested by El Sayed et al: "either the individuals feel they are protected and so stay in the sun longer, or they do not use the product with the recommended frequency".^5,9

The "sunscreen paradox" is an effect which has been observed in individuals exposed to the sun. McCarthy et al¹⁵ showed that bathers using higher SPF factor sunscreens were more frequently burned when compared with those who used a lower factor or no sunscreen. In a study on the use of sunscreen in children and its correlation with the development of nevi, Autler et al² concluded that increased number of nevi was related to increased sun exposure and to the use of sunscreen. For higher levels of exposure, the count of nevi in children who always used sunscreen was twice as high compared to that in children who never wore it.

Inadequate protection occurs if the factor is low compared to the length and intensity of sun exposure, if the quantity is insufficient and if it is not applied before sun exposure. Use of sunscreen differs widely from recommendations, as has been demonstrated in various studies.^8,3,4,18 The ideal sunscreen to avoid burning, ageing and skin cancer should meet certain criteria relating to the technology with which it is produced, product performance evaluations, norms and standards of use and, above all, the individual concerned applying it correctly, evenly and repeatedly.¹⁶

The same rationale is applicable to the subjects of this study as regards using a hat/cap. In addition to these accessories not being made of fabric proven to be photo resistant, the lip area is often not totally covered by the shadow of the hat/cap and remain exposed to the dangerous effects of UV radiation.

To conclude, a high prevalence of lip lesions was found. Workers who reported using a hat/cap were those most affected by lesions either as they thought they were protected or for spending more time in the sun.

This study made use of some self-reported information, which may have generated some doubt about the results. The importance and the validity of this information cannot be disregarded, even though its limitations are known. The time variables relating to occupation, as well as those which deal with photoprotection measures and habits, are part of this context.

Individual analysis of the lesions studied may more clearly demonstrate correlations with the variables involved in this study. The development and progression of these lesions is still unclear. Intermittent or continuous solar exposure may have different effects on the origin of these pathologies.

The objective of this study was to contribute to a deeper understanding, for health professionals, the scientific community and the health authorities, of the epidemiological aspects of lip lesions due to exposure to the sun. The harmful effects of UV radiation on health, particularly for those who are intensely and continually exposed, have been demonstrated. It is essential to intensify educational and preventive measures and ensure appropriate preventive measures for this population.

REFERENCES

Received: 11/19/2011

Approved: 6/10/2012

The authors declare that there are no conflicts of interests.

1. Armstrong BK, Kricker A. The epidemiology of UV induced skin cancer. J Photochem Photobiol B 2001;63(1-3):8-18. DOI:10.1016/S1011-1344(01)00198-1
2. Autier P, Doré JF, Cattaruzza MS, Renard F, Luther H, Gentiloni-Silverj F. Sunscreen use, wearing clothes, and number of nevi in 6 to 7-year-old European children. J Natl Cancer Inst 1998;90(24):1873-80.
3. Azurdia RM, Pagliaro JA, Diffey BL, Rhodes LE. Sunscreen application by photosensitive patients is inadequate for protection. Br J Dermatol 1999;140(2):255-8. DOI:10.1046/j.1365-2133.1999.02658.x
4. Bech-Thomsen N, Wulf HC. Sunbathers' application of sunscreen is probably inadequate to obtain the sun protection factor assigned to the preparation. Photodermatol Photoimmunol Photomed 1992-1993;9(6):242-4.
5. Campisi G, Margiotta V. Oral mucosa lesions and risk habits among men in an Italian study population. J Oral Pathol Med 2001;30(1):22-8. DOI:10.1034/j.1600-0714.2001.300104.x
6. Davis KJ, Cokkinides VE, Weinstock MA, O'Connell MC, Wingo PA. Summer sunburn and sun exposure among US youths ages 11 to 18: national prevalence and associated factors. Pediatrics. 2002;110(1 Pt 1):27-35.
7. Delzell E, Grufferman S. Mortality among white and nonwhite farmers in North Carolina, 1976 - 1978. Am J Epidemiol. 1985;121(3):391-402.
8. Diffey BL. People do not apply enough sunscreen for protection. Br Med J. 1996;313(7062):942. DOI:10.1136/bmj.313.7062.942
9. El Sayed F, Ammoury A, Nakhle F, Dhaybi R, Margueru MC. Photoprotection in teenagers. Photodermatol Photoimmunol Photomed 2006;22(1):18-21. DOI:10.1111/j.1600-0781.2006.00198.x
10. English DR, Armstrong BK, Kricker A, Fleming C. Sunlight and cancer. Cancer Causes Control. 1997;8(3):271-83. DOI:10.1023/A:1018440801577
11. Fitzpatrick TB. The validity and practicality of sun-reactive skin types I through VI. Arch Dermatol. 1988;124(6):869-71.
12. Holman CD, Gibson IM, Stephenson M, Armstrong BK. Ultraviolet irradiation of human body sites in relation to occupation and outdoor activity: field studies using personal UVR dosimeters. Clin Exp Dermatol. 1983;8(3):269-77.
13. Kadt E, Tasca R. Promovendo a equidade: um novo enfoque com base no setor da saúde. São Paulo: HUCITEC; 1993. (Saúde em Debate, 56).
14. Kricker A, Armstrong BK, English DR. Sun exposure and non-melanocytic skin cancer. Cancer Causes Control. 1994;5(4):367-92.
15. McCarthy EM, Ethridqe KP, Wagner Jr RF. Beach holiday sunburn: the sunscreen paradox and gender differences. Cutis. 1999;64(1):37-42.
16. Osterwalder U, Herzog B. The long way towards the ideal sunscreen: where we stand and what still needs to be done. Photochem Photobiol Sci. 2010;9(4):470-81. DOI:10.1039/b9pp00178f
17. Silva FD, Daniel FI, Grando LJ, Calvo MC, Rath IBS, Fabro SML. Estudo da prevalência de alterações labiais em pescadores da Ilha de Santa Catarina. Rev Odonto Cienc 2006;21(51):239-42.
18. Stokes R, Diffey B. How well are sunscreen users protected? Photodermatol Photoimmunol Photomed. 1997;13(5-6):186-8.
19. Strickland PT, Vitasa BC, West SK, Rosenthal FS, Emmett EA, Taylor HR. Quantitative carcinogenesis in man: solar ultraviolet B dose dependence of skin cancer in Maryland watermen. J Natl Cancer Inst 1989;81(24):1910-3. DOI:10.1093/jnci/81.24.1910
20. Thieden E. Sun exposure behavior among subgroups of the Danish population. Based on personal electronic UVR dosimetry and corresponding exposure diaries. Dan Med Bull 2008;55(1):47-68.
21. Urbach F. The historical aspects of photocarcinogenesis. Front Biosci. 2002;7:e85-90.
22. Zanetti R, Flório FM, Moraes PC, Lima YBA, França FMG, Araújo VC. Prevalence of actinic cheilitis in an oral health campaign in the city of Campinas, SP. J Appl Oral Sci. 2007;15(4):353. DOI:10.1590/S1678-77572007000400020

Correspondence:

Eudes Euler de Souza Lucena

Rua Professor Boanerges Soares, Pitimbu, 155

59067-730 Natal, RN, Brasil

E-mail:

eudeseuler@hotmail.com

a

Ministério da Saúde (BR), Instituto Nacional do Câncer. Estimativas da incidência e mortalidade por câncer no Brasil para 2010. Rio de Janeiro: INCA; 2009

b

Sociedade Brasileira de Dermatologia. Campanha Nacional de Prevenção contra o Câncer de Pele [cited 2011 feb]. Available from:

http://sbd.tempsite.ws/capele/gestao/relatorios.asp?campanha=1

Publication Dates

Publication in this collection
27 Mar 2013
Date of issue
Dec 2012

History

Received
19 Nov 2011
Accepted
10 June 2012

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Armstrong BK, Kricker A. The epidemiology of UV induced skin cancer. J Photochem Photobiol B 2001;63(1-3):8-18. DOI:10.1016/S1011-1344(01)00198-1

[2] 2. Autier P, Doré JF, Cattaruzza MS, Renard F, Luther H, Gentiloni-Silverj F. Sunscreen use, wearing clothes, and number of nevi in 6 to 7-year-old European children. J Natl Cancer Inst 1998;90(24):1873-80.

[3] 3. Azurdia RM, Pagliaro JA, Diffey BL, Rhodes LE. Sunscreen application by photosensitive patients is inadequate for protection. Br J Dermatol 1999;140(2):255-8. DOI:10.1046/j.1365-2133.1999.02658.x

[4] 4. Bech-Thomsen N, Wulf HC. Sunbathers' application of sunscreen is probably inadequate to obtain the sun protection factor assigned to the preparation. Photodermatol Photoimmunol Photomed 1992-1993;9(6):242-4.

[5] 5. Campisi G, Margiotta V. Oral mucosa lesions and risk habits among men in an Italian study population. J Oral Pathol Med 2001;30(1):22-8. DOI:10.1034/j.1600-0714.2001.300104.x

[6] 6. Davis KJ, Cokkinides VE, Weinstock MA, O'Connell MC, Wingo PA. Summer sunburn and sun exposure among US youths ages 11 to 18: national prevalence and associated factors. Pediatrics. 2002;110(1 Pt 1):27-35.

[7] 7. Delzell E, Grufferman S. Mortality among white and nonwhite farmers in North Carolina, 1976 - 1978. Am J Epidemiol. 1985;121(3):391-402.

[8] 8. Diffey BL. People do not apply enough sunscreen for protection. Br Med J. 1996;313(7062):942. DOI:10.1136/bmj.313.7062.942

[9] 9. El Sayed F, Ammoury A, Nakhle F, Dhaybi R, Margueru MC. Photoprotection in teenagers. Photodermatol Photoimmunol Photomed 2006;22(1):18-21. DOI:10.1111/j.1600-0781.2006.00198.x

[10] 10. English DR, Armstrong BK, Kricker A, Fleming C. Sunlight and cancer. Cancer Causes Control. 1997;8(3):271-83. DOI:10.1023/A:1018440801577

[11] 11. Fitzpatrick TB. The validity and practicality of sun-reactive skin types I through VI. Arch Dermatol. 1988;124(6):869-71.

[12] 12. Holman CD, Gibson IM, Stephenson M, Armstrong BK. Ultraviolet irradiation of human body sites in relation to occupation and outdoor activity: field studies using personal UVR dosimeters. Clin Exp Dermatol. 1983;8(3):269-77.

[13] 13. Kadt E, Tasca R. Promovendo a equidade: um novo enfoque com base no setor da saúde. São Paulo: HUCITEC; 1993. (Saúde em Debate, 56).

[14] 14. Kricker A, Armstrong BK, English DR. Sun exposure and non-melanocytic skin cancer. Cancer Causes Control. 1994;5(4):367-92.

[15] 15. McCarthy EM, Ethridqe KP, Wagner Jr RF. Beach holiday sunburn: the sunscreen paradox and gender differences. Cutis. 1999;64(1):37-42.

[16] 16. Osterwalder U, Herzog B. The long way towards the ideal sunscreen: where we stand and what still needs to be done. Photochem Photobiol Sci. 2010;9(4):470-81. DOI:10.1039/b9pp00178f

[17] 17. Silva FD, Daniel FI, Grando LJ, Calvo MC, Rath IBS, Fabro SML. Estudo da prevalência de alterações labiais em pescadores da Ilha de Santa Catarina. Rev Odonto Cienc 2006;21(51):239-42.

[18] 18. Stokes R, Diffey B. How well are sunscreen users protected? Photodermatol Photoimmunol Photomed. 1997;13(5-6):186-8.

[19] 19. Strickland PT, Vitasa BC, West SK, Rosenthal FS, Emmett EA, Taylor HR. Quantitative carcinogenesis in man: solar ultraviolet B dose dependence of skin cancer in Maryland watermen. J Natl Cancer Inst 1989;81(24):1910-3. DOI:10.1093/jnci/81.24.1910

[20] 20. Thieden E. Sun exposure behavior among subgroups of the Danish population. Based on personal electronic UVR dosimetry and corresponding exposure diaries. Dan Med Bull 2008;55(1):47-68.

[21] 21. Urbach F. The historical aspects of photocarcinogenesis. Front Biosci. 2002;7:e85-90.

[22] 22. Zanetti R, Flório FM, Moraes PC, Lima YBA, França FMG, Araújo VC. Prevalence of actinic cheilitis in an oral health campaign in the city of Campinas, SP. J Appl Oral Sci. 2007;15(4):353. DOI:10.1590/S1678-77572007000400020