Occupation and factors associated with exposure to the sun among beach workers

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

doi:10.1590/1413-81232014194.00392013

Abstracts

Subjects were selected from five urban beaches to characterize the type of work conducted on urban beaches in the city of Natal, state of Rio Grande do Norte, Brazil, and determine potential associated factors among workers exposed to the sun. Data collection was based on a validated questionnaire. Results were obtained for 362 workers. Individuals were predominantly male (72.6%) who worked under direct exposure to the sun (87.8%). Almost 95% had no more than 6 years of schooling and 87.91% earned an average monthly income of $318.75 dollars or more. Photoprotection was reported by 80.1%, among which sunscreen and caps/hats were predominant. Around 25% smoked and more than half did not consume alcohol. Male gender, no more than 6 years of schooling, daily exposure for up to 6 hours and use of photoprotection were the factors associated with the outdoor work category.

Epidemiology; Occupational medicine; Exposure to the sun; Community work

Para caracterizar o tipo de trabalho realizado nas praias urbanas na cidade de Natal, RN, Brasil, e determinar possíveis fatores associados entre trabalhadores expostos ao sol, foram selecionados sujeitos em cinco praias urbanas. A coleta de dados foi baseada em um questionário validado. Os resultados foram obtidos para 362 trabalhadores. Indivíduos eram predominantemente do sexo masculino (72,6%), que trabalharam sob exposição direta ao sol (87,8%). Aproximadamente 95% tinham até 6 anos de escolaridade e 87,91% ganhavam em média $ 318,75 dólares ou mais por mês. Medidas de fotoproteção foram relatadas por 80,1%, entre os quais protetor solar e bonés/chapéus se destacaram. Cerca de 25% fumava e mais da metade não bebia álcool. O gênero masculino, escolaridade até 6 anos, a exposição diária por até 6 horas e o uso de fatores de fotoproteção foram associados com a categoria de trabalhado outdoor.

Epidemiologia; Medicina ocupacional; Exposição solar; Trabalho comunitário

Introduction

Worker's health is understood as the set of actions responsible for the promotion, protection, recovery and rehabilitation of their physical and mental well-being. The relationship between work and health has been increasingly discussed over the last two decades. Theory focuses on the work/health process, considering work loads as a complex whole where interaction between parties is procedural¹1. Ribeiro FSN, Wünsch Filho V. Retrospective evaluation of occupational exposure to carcinogens: an epidemiological approach and application to health surveillance. Cad Saude Publica 2004; 20(4):881-890.. The increase in the number of workers linked to diverse forms of employment contract, such as outsourcers or task order contracts, has resulted in precarious employee protection conditions²2. Asmus CIRF, Ferreira HP. Epidemiologia e Saúde do Trabalhador. In: Medronho RA, Bloch KV, organizadores. Epidemiologia. São Paulo: Atheneu; 2006. p. 385-402..

The term "exposure" means contact with any attribute that may be relevant to individual health. These can include environmental, biological or socioeconomic factors, which act in isolation or in conjunction with genetic factors. In these situations, individuals are exposed to a specific substance, a mixture of substances or a work process¹1. Ribeiro FSN, Wünsch Filho V. Retrospective evaluation of occupational exposure to carcinogens: an epidemiological approach and application to health surveillance. Cad Saude Publica 2004; 20(4):881-890..

Certain professions are associated with the onset of work-related illnesses. Employees exposed to physical, chemical or biological agents are more prone to be carriers of such diseases. A classic example is those with documented or undocumented status working on beaches, since they are directly or indirectly exposed to ultraviolet radiation from sun exposure.

The low socioeconomic status of these individuals, as well as the small number of jobs available to those with little qualification, influences the increase in the number of undocumented workers. These individuals often expose themselves to a variety of workplace hazards in order to ensure their livelihood. The difference in perceived risk between the sexes does not occur among varying social strata. Excessive exposure is equally reported by individuals with greater and lower purchasing power, varying only in the circumstances of exposure. Those with higher socioeconomic and schooling levels are more prone to experience sunburn during leisure activities, while those with lower socioeconomic and schooling levels are more likely to do so when working³3. Melia J, Bulman A. Sunburn and tanning in a British population. J Pub Health Med 1995; 17(2):223-229.^,⁴4. Robinson JK, Rigel DS, Amonette RA. Trends in sun exposure knowledge, attitudes and behaviors: 1986 to 1996. J Am Acad Dermatol 1997; 37(2 Pt 1):179-186..

Thus, the present study aimed to characterize the type of worker involved in occupational activities on the main urban beaches in the city of Natal/RN - Brazil with regard to sun exposure, and determine potential associations with sociodemographic, occupational and general health variables.

Methodology

The present study is a population survey providing an important view towards understanding occupations carried out by beach workers and in determining the association of certain factors with the work involved. From an operational perspective, this is a study with individual-level data. With regard to the position of the researcher, it is observational, and, in relation to the timeframe, is classified as cross-sectional⁵5. Rouquayrol MZ, Almeida Filho N. Epidemiology and Health. Rio de Janeiro: MEDSI; 2003..

The project was approved by the Research Ethics Committee (CEP) at the Federal University of Rio Grande do Norte in accordance with Resolution 196/96⁶6. Brasil. Ministério da Saúde (MS). Conselho Nacional de Saúde. Resolução nº. 196 de 10 de outubro de 1996. Diretrizes e Normas Regulamentadoras de Pesquisas Envolvendo Seres Humanos. Diário Oficial da União 1996; 16 out. of the National Health Council.

Workers on Ponta Negra, Redinha, Meio, Forte and Artistas Beaches in the city of Natal, Brazil participated in this study. Participants were adult and elderly males and females and used those places to get the principal source of income. The sample was calculated based on the sampling design from "Prevalence and factors associated with lip and perioral lesions resulting from sun exposure in beach workers"⁷7. Lucena EES. Prevalence and associated factors for lip and perioral lesions from Sun Exposure in beach workers. Tesis. BLO-Brazilian Library of Odontology 2011, ID: 35878. . A pilot study was first conducted with 10% of the sample universe, owing to the absence of estimates regarding the number of workers, which compromised calculation of actual sample size. Two evaluators went to the collection sites over 2 weekends and observed 1200 workers, resulting in a sample of 120 individuals. Based on the prevalence of lip lesions obtained in the pilot study 36.6% (the lowest prevalence), and considering a margin of error of 15% and non-response rate of 20%, a final sample of 355 individuals was obtained. The methods to the pilot study were the same from the main study.

Data were collected in December 2011 in areas with a significant number of beach workers. Since this period corresponds to low season, the presence of full-time workers was expected at these locations. The study was publicized beforehand in the local media through interviews with professors involved in the research. Subject allocation was non-probabilistic and individuals were invited to participate spontaneously. Data collection was based on a validated questionnaire. This instrument was validated in three steps. The first was conducted through literature search, followed by an evaluation by dentists, dermatologists and epidemiologists, and finally a cultural adaptation of the questionnaire to the universe of the study.

Calibrated students from the Dentistry and Medicine course at the Federal University of Rio Grande do Norte (UFRN) were responsible for gathering information. A workshop calibration was made by the teachers of the Department of Dentistry and Department of Dermatologist to minimize variations among different examiners. The result of the calibration process, measured by the kappa coefficient, ranged from 0.68 to 1.00.

Outdoor workers were those exposed directly to ultraviolet radiation in around the beaches. Those working in covered places were classified as indoor. In order to understand how one or more sociodemographic, occupational or general health characteristics are distributed among beach workers in the city of Natal, as well as determine the existence of associations between type of work and sun exposure, the following variables were used:

- Dependent variable: type of work (outdoor and indoor)

- Independent variables: gender, employment status, age, years of schooling, income in dollars, time of daily sun exposure, frequency of weekly sun exposure, accumulated exposure time, work start time, work finishing time, use of photoprotection measures, skin type and habits.

Data were imported onto STATA(r) software platforms version 10.0 and subsequently checked for typing consistency. Association between type of work and sociodemographic, occupational and general health variables was determined using the chi-square statistical test. In order to establish the magnitude of these associations, prevalence ratios and their respective confidence intervals were applied (95%). Multivariate analysis was performed using robust Poisson regression applying the hybrid method to estimate the extent of the relationship between independent variables (sex, employment status, years of schooling, time of daily sun exposure, work start time, work finishing time, photoprotection measures, sunscreen use, use of a cap/hat and skin type) and the dependent variable. A significance level of 5% was adopted for all tests.

Results

Following data collection, results were obtained for 362 workers. Most of the sample were males (72.6%) aged approximately 37 years old, with a mean monthly income of $ 318.75 and an average of 6 years schooling. The population worked under direct sun exposure for 6 hours a day, 5 days a week over the previous 8 years (Table 1). The vast majority uses photoprotection (80.1%), mainly a cap/hat or sunscreen. With regard to habits, a quarter of subjects smoke and more than half do not drink. In relation to skin type, based on the Fitzpatrick scale⁸8. Fitzpatrick TB. The validity and practicality of sunreactive skin types I through VI. Arch Dermatol 1988; 124(6):869-871., workers exhibited predominantly light brown and dark brown skin. Nearly all participants worked under direct sun exposure (87.8%) for up to 6 hours daily (95.2%); 88.5% up to five times a week and 88.3% for more than 8 years. (Table 2).

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Table 1
Sample description according to socio-demographic and occupational variables. Natal, Brazil, 2013.

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Table 2
Frequencies, chi2 test, p-value, PRs and respective confidence intervals for type of work associated with sociodemographic, occupational and general health variables. Natal, RN. 2013.

However, when relating these sociodemographic, occupational and general health variables with type of work, a greater occurrence was recorded for male outdoor workers, with 6 years of schooling who were exposed to the sun for up to 6 hours and used some means of photoprotection.

In multivariate analysis, sex, years of schooling, daily exposure and photoprotection remained significant, irrespective of other variables. Jobs in the outdoor category were mostly occupied by men (PR = 1.200) and those with at least 6 years of study (PR = 1.157), who used photo protection (PR = 0.0833) and were subject to daily exposure for up to 6 hours (PR = 0.873) (Table 2).

Discussion

Studies relating sociodemographic, occupational and health factors with type of work, considering sun exposure, are scarce in the literature. Research, analysis and interpretation of data is mostly simplified. This analytical approach is possible in cross-sectional studies since the design allows for the grouping of data from different bases, ranging from biological aspects of the individual to the occupations of participants involved. The accumulation changes in the genetic material of the cell depends on various factors such as endogenous sex, age and genetic makeup, and exogenous as consumption habits, feeding, drug use, exposure to chemicals, etc. The analysis of the combination of these endogenous factors for epidemiology and exogenous aims infer the individual risk of a worker likely to develop cancer compared to a given occupation⁹9. Gattás GJF, Segre M, Filho VW. Genética, biologia molecular e ética: as relações trabalho e saúde. Cien Saude Colet 2002; 7(1):159-167.. Furthermore, it promotes the dissemination of measures considered essential in reducing accidents and primary prevention of pathologies.

Subjects considered outdoor workers were those engaged in work around noon when peak ultraviolet radiation was recorded. Occupations related to this category typically extend over several years and exposure to ultraviolet rays generally occurs several times a week¹⁰10. Glanz K, Buller DB, Soraya M. Reducing ultraviolet radiation exposure among outdoor workers: State of the evidence and recommendations. Environ Health 2007; 6(22):1-11.. Individuals would be directly susceptible to damaged caused by sun exposure. On the other hand, those working in kiosks, hotels, bars and handicraft centers along the beaches studied were categorized as indoor.

The number of indoor workers observed in this study was lower in comparison to the outdoor category. A larger sample of subjects in the former would permit better data distribution. Conducting data collection during the low season, with less tourist traffic, allowed for the participation of individuals who regularly worked at the locations studied. It was expected that most of the sample would have a significant work history.

Of course, men are more likely to occupy jobs related to sun exposure, whether due to endurance or a greater need for physical strength¹¹11. Memon AA, Tomenson JÁ, Bothwell J, Friedmann PS. Prevalence of solar damage and actinic keratosis in a Merseyside population. Br J Dermatol 2000; 142(6):1154-1159.

12. Frost CA, Green AC, Williams GM. The prevalence and determinants of solar keratoses at a subtropical latitude. Br J Dermatol 1998; 139(6):1033-1039.

13. Kennedy C, Bajdik CD, Willemze R, De Gruijl FR, Bouwes Bavinck JN; Leiden Skin Cancer Study. The influence of painful sunburns and lifetime sun exposure in the risk of actinic keratoses, seborrheic warts, melanocytic nevi, atypical nevi, and skin cancer. J Invest Dermatol 2003; 120(6):1087-1093. ^-¹⁴14. Araki K, Nagano T, Ueda M, Washio F, Watanabe S, Yamaguchi N, Ichihashi M. Incidence of skin cancers and precancerous lesions in Japanese- risk factors and prevention. J Epidemiol 1999; 9(Supl. 6):S14-S21.. Differences in risk behaviors related to the sun among occupations may reflect, in part, local cultural habits and type of photoprotection. Composition of work groups differs considerably between the sexes. Women were more prevalent in studies of aquatic and recreational occupations, while men predominate in agriculture, services, construction, transport, postal services and the ski industry¹⁵15. Steffen AD, Glanz K, Wilkens LR. Dentifying latent classes of adults at risk Risk for Skin Cancer Based on Constitutional Risk and Sun Protection Behavior. Cancer Epidemiol Biomarkers Prev 2007; 16(7): 1422-1427..

The schooling level of the population investigated may corroborate these socioeconomic data. In addition to working more exposed to the environment, individuals who study less also earn proportionally less and work longer. Since it is important to collect data that illustrate a social parameter essential in understanding the damage profile of a certain disease within a population, the variable years of schooling was assessed. A link between lack of knowledge regarding the correct use of prevention methods, essential in carrying out occupational activities involving sun exposure, combined with the likely difficulty of access to healthcare services may explain the occurrence of a particular occupational disease.

When analyzing occupational variables related to time, outdoor workers were generally exposed to the sun for less daily hours during their work activities, 42 corresponding to peak solar radiation times between 09:00 and 16:00. Among factors that cause distortions and reduce the validity of epidemiological studies, exposure measurement stands out¹⁶16. Goldberg M, Hémon D. Occupational epidemiology and assessment of exposure. Int J Epidemiol 1993; 22(Supl. 2):S5-S8.. The occurrence of bias depends on the instrument used and its improper implementation, as well as the characteristics and sensitivity of the interviewed¹⁷17. Armstrong BK, White E, Saracci R. Principles of exposure measurements in epidemiology. New York: Oxford University Press; 1992..

Occupational variables referring to photoprotection measures revealed that most workers protected themselves from ultraviolet radiation. Indoor workers reported taking less photoprotection measures when compared to outdoor workers. This may be due to lack of knowledge regarding the indirect action of ultraviolet rays when reflected off beach sand, and the way photoprotection measures are being and have been implemented over time. Another possible explanation for that occupational exposure is that its use wasn´t evidenced during the research. Recently, Salicio et al.¹⁸18. Salicio VSMM, Botelho C, Silva AMC, Salicio MA. Fatores associados às alterações da função pulmonar em trabalhadores de indústria de cerâmica. Cien Saude Colet 2013; 18(5):1353-1360. analysed lung function in workers of ceramic industries in Várzea Grande - Mato Grosso. The workers have reported use of equipment Personal Protective Equipment (PPE) such as masks and gloves, but its use wasn´t observed by most of the staff during our work field, although, from the point of view of ergonomic comfort, its use is becomes almost unfeasible under extreme temperatures next to ovens.

One effect observed by researchers among individuals exposed to the sun is the "sunscreen paradox": those using sunscreen with higher protection factors were the most prone to sunburn. McCarthy et al.¹⁹19. McCarthy EM, Ethridqe KP, Wagner RF. Beach Holiday sunburn: the sunscreen paradox and gender differences. Cutis 1999; 64(1):37-42. established that, among beachgoers, those using sunscreen with larger protection factors exhibited greater frequency of sunburn compared to those applying low factor protection or those not using sunscreen. In a study on sunscreen use in children and its relationship with nevi, Autier et al.²⁰20. Autier P, Doré JF, Cattaruzza MS, Renard F, Luther H, Gentiloni-Silverj F, Zantedeschi E, Mezzetti M, Monjaud I, Andry M, Osborn JF, Grivegnée AR. Sunscreen use, wearing clothes, and number of nevi in 6 to 7-year-old European children. J Natl Cancer Inst 1998; 90(24):1873-1880. concluded that a rise in the number of nevi was related to increased sun exposure and sunscreen use. At higher exposure levels, the nevi count in children who always applied sunscreen was twice as high as in those who never used it.

The ideal sunscreen for preventing burns, photoaging and even skin cancer, must meet four criteria in order to be effective: the technology involved in its production, evaluation of product performance, standards and use patterns and, above all, correct, even and repeated application²¹21. 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):470-481..

Photoprotectors are generally used incorrectly, especially in regard to protection factor, the amount of protection applied and intervals between applications. Inadequate protection occurs when the photoprotection factor is very low compared to duration or intensity of sun exposure; when an insufficient amount is used and when it is not applied prior to exposure. It is well known that sunscreen use diverges significantly from recommendations, a fact demonstrated by several studies²²22. Diffey BL. People do not apply enough sunscreen for protection. Br Med J 1996; 313(7062):942.

23. Azurdia RM, Pagliaro JA, Diffey BL, Rhodes LE. Sunscreen application by photosensitive patients is inadequate for protection. Br J Dermatol 1999; 140(2):255-258.

24. Bech-Thompson N, Wulf HC. Sunbathers application of sunscreen is probably inadequate to obtain the Sun protection factor assigned to the preparation. Photodermatol Photoimmunol Photomed 1992; 9(6):242-244.^-²⁵25. Stokes R, Diffey B. How well are sunscreen users protected? Photodermatol Photoimmunol Photomed 1997; 13(5-6):186-188..

El Sayed et al. found a higher prevalence of sunburn among young photoprotection users. Most individuals diagnosed with lesions used protection at the time, demonstrating the inadequate use reported by the authors. "Subjects felt protected and extended their sun exposure, or did not reapply the product at recommended intervals"²⁶26. El Sayed F, Ammoury A, Nakhle F, Dhaybi R, Marguery MC. Photoprotection in teenagers. Photodermatol Photoimmunol Photomed 2006; 22(1):18-21. ^,²⁷27. 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..

The present study used some self-reported information, which may call into question or cast doubt on its results. The importance of this type of information should not be disregarded despite its known limitations. Time variables related to occupation and those involving photoprotection measures and habits are included in this context.

Conclusion

It was found that outdoor jobs were mostly occupied by men and workers with up to 6 years of schooling, who used photoprotection and were exposed to the sun for up to 6 hours a day.

Therefore, this study aimed to contribute towards a greater understanding by professionals in healthcare, the scientific community and health authorities regarding epidemiological aspects of jobs performed by beach workers, and particularly to warn against the harmful effects of UV radiation on health, primarily among those under intense and chronic exposure.

It is essential to intensify educational and preventive measures, as well as ensure appropriate remedial measures for this population and labor policies related to worker's health.

Collaborations

EES Lucena and KC Lima were responsible for the design of the study. EES Lucena, DCB Costa, EJD Silveira and KC Lima participated in data analysis and draft of the text.

Acknowledgements

We thank the fundings bodies: Coordination Improvement of Higher Education Personnel (CAPES) and UFRN Dermatology Departament.

References

¹
Ribeiro FSN, Wünsch Filho V. Retrospective evaluation of occupational exposure to carcinogens: an epidemiological approach and application to health surveillance. Cad Saude Publica 2004; 20(4):881-890.
²
Asmus CIRF, Ferreira HP. Epidemiologia e Saúde do Trabalhador. In: Medronho RA, Bloch KV, organizadores. Epidemiologia. São Paulo: Atheneu; 2006. p. 385-402.
³
Melia J, Bulman A. Sunburn and tanning in a British population. J Pub Health Med 1995; 17(2):223-229.
⁴
Robinson JK, Rigel DS, Amonette RA. Trends in sun exposure knowledge, attitudes and behaviors: 1986 to 1996. J Am Acad Dermatol 1997; 37(2 Pt 1):179-186.
⁵
Rouquayrol MZ, Almeida Filho N. Epidemiology and Health. Rio de Janeiro: MEDSI; 2003.
⁶
Brasil. Ministério da Saúde (MS). Conselho Nacional de Saúde. Resolução nº. 196 de 10 de outubro de 1996. Diretrizes e Normas Regulamentadoras de Pesquisas Envolvendo Seres Humanos. Diário Oficial da União 1996; 16 out.
⁷
Lucena EES. Prevalence and associated factors for lip and perioral lesions from Sun Exposure in beach workers. Tesis. BLO-Brazilian Library of Odontology 2011, ID: 35878.
⁸
Fitzpatrick TB. The validity and practicality of sunreactive skin types I through VI. Arch Dermatol 1988; 124(6):869-871.
⁹
Gattás GJF, Segre M, Filho VW. Genética, biologia molecular e ética: as relações trabalho e saúde. Cien Saude Colet 2002; 7(1):159-167.
¹⁰
Glanz K, Buller DB, Soraya M. Reducing ultraviolet radiation exposure among outdoor workers: State of the evidence and recommendations. Environ Health 2007; 6(22):1-11.
¹¹
Memon AA, Tomenson JÁ, Bothwell J, Friedmann PS. Prevalence of solar damage and actinic keratosis in a Merseyside population. Br J Dermatol 2000; 142(6):1154-1159.
¹²
Frost CA, Green AC, Williams GM. The prevalence and determinants of solar keratoses at a subtropical latitude. Br J Dermatol 1998; 139(6):1033-1039.
¹³
Kennedy C, Bajdik CD, Willemze R, De Gruijl FR, Bouwes Bavinck JN; Leiden Skin Cancer Study. The influence of painful sunburns and lifetime sun exposure in the risk of actinic keratoses, seborrheic warts, melanocytic nevi, atypical nevi, and skin cancer. J Invest Dermatol 2003; 120(6):1087-1093.
¹⁴
Araki K, Nagano T, Ueda M, Washio F, Watanabe S, Yamaguchi N, Ichihashi M. Incidence of skin cancers and precancerous lesions in Japanese- risk factors and prevention. J Epidemiol 1999; 9(Supl. 6):S14-S21.
¹⁵
Steffen AD, Glanz K, Wilkens LR. Dentifying latent classes of adults at risk Risk for Skin Cancer Based on Constitutional Risk and Sun Protection Behavior. Cancer Epidemiol Biomarkers Prev 2007; 16(7): 1422-1427.
¹⁶
Goldberg M, Hémon D. Occupational epidemiology and assessment of exposure. Int J Epidemiol 1993; 22(Supl. 2):S5-S8.
¹⁷
Armstrong BK, White E, Saracci R. Principles of exposure measurements in epidemiology. New York: Oxford University Press; 1992.
¹⁸
Salicio VSMM, Botelho C, Silva AMC, Salicio MA. Fatores associados às alterações da função pulmonar em trabalhadores de indústria de cerâmica. Cien Saude Colet 2013; 18(5):1353-1360.
¹⁹
McCarthy EM, Ethridqe KP, Wagner RF. Beach Holiday sunburn: the sunscreen paradox and gender differences. Cutis 1999; 64(1):37-42.
²⁰
Autier P, Doré JF, Cattaruzza MS, Renard F, Luther H, Gentiloni-Silverj F, Zantedeschi E, Mezzetti M, Monjaud I, Andry M, Osborn JF, Grivegnée AR. Sunscreen use, wearing clothes, and number of nevi in 6 to 7-year-old European children. J Natl Cancer Inst 1998; 90(24):1873-1880.
²¹
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):470-481.
²²
Diffey BL. People do not apply enough sunscreen for protection. Br Med J 1996; 313(7062):942.
²³
Azurdia RM, Pagliaro JA, Diffey BL, Rhodes LE. Sunscreen application by photosensitive patients is inadequate for protection. Br J Dermatol 1999; 140(2):255-258.
²⁴
Bech-Thompson N, Wulf HC. Sunbathers application of sunscreen is probably inadequate to obtain the Sun protection factor assigned to the preparation. Photodermatol Photoimmunol Photomed 1992; 9(6):242-244.
²⁵
Stokes R, Diffey B. How well are sunscreen users protected? Photodermatol Photoimmunol Photomed 1997; 13(5-6):186-188.
²⁶
El Sayed F, Ammoury A, Nakhle F, Dhaybi R, Marguery MC. Photoprotection in teenagers. Photodermatol Photoimmunol Photomed 2006; 22(1):18-21.
²⁷
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.

Publication Dates

Publication in this collection
Apr 2014

History

Received
16 Mar 2013
Accepted
18 Aug 2013

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
Ribeiro FSN, Wünsch Filho V. Retrospective evaluation of occupational exposure to carcinogens: an epidemiological approach and application to health surveillance. Cad Saude Publica 2004; 20(4):881-890.

[2] ²
Asmus CIRF, Ferreira HP. Epidemiologia e Saúde do Trabalhador. In: Medronho RA, Bloch KV, organizadores. Epidemiologia. São Paulo: Atheneu; 2006. p. 385-402.

[3] ³
Melia J, Bulman A. Sunburn and tanning in a British population. J Pub Health Med 1995; 17(2):223-229.

[4] ⁴
Robinson JK, Rigel DS, Amonette RA. Trends in sun exposure knowledge, attitudes and behaviors: 1986 to 1996. J Am Acad Dermatol 1997; 37(2 Pt 1):179-186.

[5] ⁵
Rouquayrol MZ, Almeida Filho N. Epidemiology and Health. Rio de Janeiro: MEDSI; 2003.

[6] ⁶
Brasil. Ministério da Saúde (MS). Conselho Nacional de Saúde. Resolução nº. 196 de 10 de outubro de 1996. Diretrizes e Normas Regulamentadoras de Pesquisas Envolvendo Seres Humanos. Diário Oficial da União 1996; 16 out.

[7] ⁷
Lucena EES. Prevalence and associated factors for lip and perioral lesions from Sun Exposure in beach workers. Tesis. BLO-Brazilian Library of Odontology 2011, ID: 35878.

[8] ⁸
Fitzpatrick TB. The validity and practicality of sunreactive skin types I through VI. Arch Dermatol 1988; 124(6):869-871.

[9] ⁹
Gattás GJF, Segre M, Filho VW. Genética, biologia molecular e ética: as relações trabalho e saúde. Cien Saude Colet 2002; 7(1):159-167.

[10] ¹⁰
Glanz K, Buller DB, Soraya M. Reducing ultraviolet radiation exposure among outdoor workers: State of the evidence and recommendations. Environ Health 2007; 6(22):1-11.

[11] ¹¹
Memon AA, Tomenson JÁ, Bothwell J, Friedmann PS. Prevalence of solar damage and actinic keratosis in a Merseyside population. Br J Dermatol 2000; 142(6):1154-1159.

[12] ¹²
Frost CA, Green AC, Williams GM. The prevalence and determinants of solar keratoses at a subtropical latitude. Br J Dermatol 1998; 139(6):1033-1039.

[13] ¹³
Kennedy C, Bajdik CD, Willemze R, De Gruijl FR, Bouwes Bavinck JN; Leiden Skin Cancer Study. The influence of painful sunburns and lifetime sun exposure in the risk of actinic keratoses, seborrheic warts, melanocytic nevi, atypical nevi, and skin cancer. J Invest Dermatol 2003; 120(6):1087-1093.

[14] ¹⁴
Araki K, Nagano T, Ueda M, Washio F, Watanabe S, Yamaguchi N, Ichihashi M. Incidence of skin cancers and precancerous lesions in Japanese- risk factors and prevention. J Epidemiol 1999; 9(Supl. 6):S14-S21.

[15] ¹⁵
Steffen AD, Glanz K, Wilkens LR. Dentifying latent classes of adults at risk Risk for Skin Cancer Based on Constitutional Risk and Sun Protection Behavior. Cancer Epidemiol Biomarkers Prev 2007; 16(7): 1422-1427.

[16] ¹⁶
Goldberg M, Hémon D. Occupational epidemiology and assessment of exposure. Int J Epidemiol 1993; 22(Supl. 2):S5-S8.

[17] ¹⁷
Armstrong BK, White E, Saracci R. Principles of exposure measurements in epidemiology. New York: Oxford University Press; 1992.

[18] ¹⁸
Salicio VSMM, Botelho C, Silva AMC, Salicio MA. Fatores associados às alterações da função pulmonar em trabalhadores de indústria de cerâmica. Cien Saude Colet 2013; 18(5):1353-1360.

[19] ¹⁹
McCarthy EM, Ethridqe KP, Wagner RF. Beach Holiday sunburn: the sunscreen paradox and gender differences. Cutis 1999; 64(1):37-42.

[20] ²⁰
Autier P, Doré JF, Cattaruzza MS, Renard F, Luther H, Gentiloni-Silverj F, Zantedeschi E, Mezzetti M, Monjaud I, Andry M, Osborn JF, Grivegnée AR. Sunscreen use, wearing clothes, and number of nevi in 6 to 7-year-old European children. J Natl Cancer Inst 1998; 90(24):1873-1880.

[21] ²¹
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Variable	n	Mean ± sd	MEL present	Chi 25-75	Min	Max
Sociodemographic
Age	355	37.17 ± 11.88	37.00	27.00 - 45.00	18.00	68.00
Years of schooling	355	6.49 ± 3.98	6.00	4.00 – 10.00	0	17.00
Income in dollars	337	428.76 ± 298.70	318.75	250.00-500.00	31.25	2625.00
OccupationalStart time	361	8.62 ± 1.37	9.00	8.00 – 10.00	5.00	13.00
Finishing time	361	15.84 ± 1.98	16.00	14.00 –17.00	8.00	24.00
Daily exposure time in hours	361	5.89 ± 1.26	6.00	7.00 – 6.00	0	7.00
Weekly sun exposure in days	361	4.76 ± 2.17	5.00	2.50 – 7.00	1.00	7.00
Exposure in years	361	10.07 ± 9.66	8.00	3.00 – 15.00	0.08	60.00
Exposure in months	361	121.27 ± 115.60	96.00	180.00 – 36.00	1.00	720.00

	Type of worker
Variable	n	%	chi ²	p-value	PR_naj	CI (95%)	PR_aj	p-value	CI (95%)
Sex
Male	239	90.9	7.260	0.007	1.139	1.024-1.266	1.200	0.001	1.081-1.332
Female	79	79.8
Employment status
Documented	12	70.6	3.400	0.065	0.796	0.584-1.085	1.128	0.452	0.824-1.545
Undocumented	305	88.7
Age
37 years and older	150	88.2	0.001	0.976	1.008	0.933-1.089	- - -
Up to 37 years	162	87.6
Years of schooling
Up to 6 years	179	94.2	14.102	0.001	1.169	1.076-1.270	1.157 0.001 1.069-1.253
6 years and over	133	80.6
Income in dollars
Up to $ 318.75	157	91.3	0.713	0.399	1.039	0.965-1.117	- - -
$ 318.75 and over	145	87.9
Daily exposure
6 hours and over	120	77.9	22.957	0.001	0.819	0.749-0.895	0.873	0.005	0.794-0.961
Up to 6 hours	197	95.2
Weekly exposure
5 days and over	157	87.7	0.003	0.954	0.991	0.919-1.070	- - -
Up to 5 days	161	88.5
Accumulated exposure
8 years and over	143	88.3	0.006	0.937	1.010	0.935-1.090	- - -
Up to 8 years	174	87.4
Work start time
09:00 h or later	94	96.9	9.124	0.003	1.147	1.077-1.222	1.055 0.121 0.986-1.129
before 09:00h	223	84.5
Work finishing time
16:00h or later	107	79.3	13.488	0.001	0.853	0.777-0.937	0.939 0.186 0.855-1.031
Before 16:00h	210	92.9
Photoprotection
No	53	73.6	15.431	0.001	0.806	0.698-0.929	0.833 0.033 0.704-0.986
Yes	265	91.4
Sunscreen use
No	180	85.3	2.438	0.118	0.934	0.867-1.006	0.943	0.143	0.871-1.020
Yes	137	91.3
Use of a Cap/Hat
No	97	79.5	10.728	0,001	0,864	0.784-0.952	1.015	0.785	0.913-1.128
Yes	220	92.1
Skin type
Fair	94	81.7	5.421	0.020	0.899	0.817-0.988	0.920	0.058	0.844-1.003
Dark/Black	221	90.9
Yes	126	86.9	0.083	0.774	0.982	0.907-1.063	-	-	-
No	192	88.5
Smoking
Yes	81	90.0	0.287	0.592	1.033	0.951-1.122	-	-	-
No	237	87.1

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