Continuous and bimonthly publication
ISSN (on-line): 1806-3756

Licença Creative Commons
7681
Views
Back to summary
Open Access Peer-Reviewed
Artigo Original

Factors associated with cigarette experimentation among adolescents

Fatores associados à experimentação do cigarro em adolescentes

Maristela Prado e Silva, Regina Maria Veras Gonçalves da Silva, Clovis Botelho

ABSTRACT

Objective: To assess the prevalence of and factors associated with smoking experimentation among adolescents. Methods: Cross-sectional study, using a specific questionnaire to interview 2,883 students from 7th to 10th grade in schools located in the urban area of the city of Cuiabá, in the state of Mato Grosso, Brazil. Prevalence was estimated, and the principal factors related to cigarette experimentation were analyzed. Subsequently, a hierarchical logistic model was used to describe the chances of cigarette experimentation related to the variables being investigated. Results: The prevalence of cigarette experimentation was 30.2%. In the final model of the analysis, the main variables related to cigarette experimentation were low maternal level of education (OR = 2.44; 95% CI: 1.72-3.47); low socioeconomic level (OR = 1.39; 95% CI: 1.01-1.93); studying in a public school (OR = 1.56; 95% CI: 1.22-2.00); being in 10th grade (OR = 3.45; 95% CI: 2.63-4.54); attending school in the evening (OR = 2.44; 95% CI: 1.85-3.22); having divorced parents (OR = 1.23; 95% CI: 1.02-1.49); having been held back for one school year (OR = 2.17; 95% CI: 1.78-2.70); having friends who smoke (OR = 3.75; 95% CI: 2.99-4.70) having a sibling who smokes (OR = 2.44; 95% CI: 1.82-3.27); and being older (age 17-19 years) (OR = 2.44; 95% CI: 1.39-4.17). Conclusions: A high proportion of adolescents have experimented with smoking. After adjusting for confounding variables, the factors most strongly associated with cigarette experimentation were maternal level of education, age of the adolescent, attending school in the evening, having been held back for one school year and having a sibling who smokes. Preventive measures must be directed at adolescents in schools in order to control smoking.

Keywords: Smoking; Adolescent; Students; Risk factors.

RESUMO

Objetivo: Analisar a prevalência e os fatores associados à experimentação do cigarro em adolescentes. Métodos: Estudo transversal, utilizando-se questionário específico, onde foram entrevistados 2.883 estudantes do ensino fundamental e do 1º ano do ensino médio, de escolas localizadas na zona urbana da cidade de Cuiabá (MT). Estimou-se a prevalência e foram analisados os principais fatores relacionados à experimentação do cigarro. Após isso, obteve-se um modelo logístico hierarquizado descrevendo as chances da experimentação do cigarro relacionada com as variáveis investigadas. Resultados: A prevalência da experimentação do cigarro foi de 30,2%. No modelo final de análise, as principais variáveis relacionadas com a experimentação do cigarro foram menor nível de escolaridade da mãe (OR = 2,44; IC95%: 1,72‑3,47); menor nível socioeconômico (OR = 1,39; IC95%: 1,01-1,93); estudar na escola pública (OR = 1,56; IC95%: 1,22-2,00); estar no 1º ano do ensino médio (OR = 3,45; IC95%: 2,63-4,54); estudar no período noturno (OR = 2,44; 1,85-3,22); ter pais separados (OR = 1,23; IC95%: 1,02-1,49); já ter sido reprovado na escola (OR = 2,17; IC95%: 1,78-2,70); ter amigos fumantes (OR = 3,75; IC95%: 2,99-4,70); ter irmãos fumantes (OR = 2,44; IC95%: 1,82-3,27); e ser mais velho (17-19 anos) (OR = 2,44; IC95%: 1,39-4,17). Conclusões: Foi alta proporção de adolescentes que experimentaram o cigarro. Após ajuste para variáveis de confusão os fatores mais fortemente associados à experimentação do cigarro foram nível de escolaridade da mãe, idade do adolescente, estudar no período noturno, já ter sido reprovado na escola e ter amigos e irmãos fumantes. Medidas preventivas devem ser direcionadas aos adolescentes, dentro das instituições escolares, como forma de controle do tabagismo.

Palavras-chave: Tabagismo; Adolescente; Estudantes; Fatores de risco.

Introduction

The World Health Organization (WHO) considers smoking the greatest isolated avoidable cause of illness and death worldwide. Approximately 25% of all regular smokers die prematurely due to diseases associated with tobacco, losing about 20 years of life.(1) Smoking accounts for 40-45% of all deaths due to cancer (90-95% of those caused by lung cancer), 75% of deaths due to chronic obstructive pulmonary disease, approximately 20% of deaths due to vascular diseases and 35% of deaths due to cardiovascular diseases.(2,3)

As tobacco is the second most commonly consumed drug among youths worldwide, smoking is currently considered a pediatric disease,(4) since most youths start smoking in adolescence. In a study carried out by the WHO between 1999 and 2002 in 23 Latin-American countries and English-speaking nations in the Americas, it was observed that the 13-15 year-age bracket presents the greatest susceptibility to developing the smoking habit.(5)

In Brazil, a study carried out by the National Ministry of Health(4) revealed that the onset of smoking takes place rather early in the life of students in twelve Brazilian capitals, and that, in cities such as Vitória and Boa Vista, nearly 40% of youths try cigarettes by 11 years of age.

In Cuiabá, Brazil, there have been no studies on adolescent smoking experimentation. Considering experimentation as the determining factor for the prevalence of smoking in adult life, this study aims to analyze the principal variables associated with this event, in order to further the development of educational guidelines for schoolchildren.

Methods

This was an observational cross-sectional study involving adolescents (10 to 19 years of age) regularly enrolled in junior high or high school at schools located in the urban area of the city of Cuiabá, Brazil.

The Brazilian Statute for Minors(6) defines as adolescent as an individual between 12 and 18 years of age. However, in the present study, we opted to use the WHO classification,(7) in which an adolescent is defined as an individual between 10 and 19 years of age.(7)

In order to calculate the size of the sample, we defined a power of 80%, a sample error of 5%, a confidence level of 95% and an estimated prevalence of smoking experimentation of 12%. The estimate of the prevalence of smoking experimentation was based on a study carried out by the Brazilian Center for Information on Psychotropic Drugs, which showed that, in addition to the use of other drugs, tobacco use among junior high and high school students at public schools in Cuiabá, Brazil was 12.3% in 2004,(8) totaling 2,248 students. To this number, a predicted 25% losses or refusals was added.

The study involved 2,883 students, 56.6% from public schools and 43.4% from private schools, from the 6th, 7th, 8th, 9th and 10th grades. Three visits were paid to the schools, in order to decrease the lack of response and to contact students who were absent in the previous visits. Students aged 20 years or more were excluded from the study. In addition, all questionnaires that were illegible, incomplete, torn or missing the date of birth were excluded.

For data collection, we used a multiple-choice self-report questionnaire, without identification of the students, as well as being standardized and pre-codified, that was developed by the authors based on the Brazilian National Cancer Institute questionnaire for students.(9) The questionnaire was previously tested among adolescents at a school not included in this study, with the objective of testing student comprehension, as well as correcting possible flaws and standardizing the tool for data collection.

The following data were collected: socioeconomic level of the families, level of education of the parents, parental smoking and marital status, date of birth of the adolescent, age at which they experimented with smoking, gender, type of school (public or private), grade and study shift (morning, afternoon or evening), whether they had been held back a school year, whether the school had provided orientation on the hazardous effects of smoking as part of the class curriculum, and whether friends or siblings smoked. Students were also questioned regarding physical activities and whether they adhered to any religion.

Adolescents who reported having experimented with smoking were considered experimenters.

The level of education of the parents was divided into four categories: college or university (graduate); high school; junior high; and incomplete elementary school/illiterate.

The classification described by the Brazilian Association of Research Companies was used in the analysis of the socioeconomic level of the families.­(10)

Data analysis was carried out using the Epi Info 2000 program and the Statistical Package for the Social Sciences, version 9.0 (SPSS Inc., Chicago, IL, USA). In the bivariate analysis, the ratio of the prevalence and its respective 95% confidence interval were used as the measure of association between the dependent variable (smoking experimentation) and the other studied variables.

In this phase, the chi-square test was used to evaluate the statistical differences among the proportions. The chi-square test for linear tendency was used in order to determine the linearity of the associations. All variables that showed significance in the bivariate analysis were included in the multivariate analysis, which was carried out through hierarchical logistic regression.­(11)

The variables were included in blocks, and the most distal factors, the socio-demographic variables of the adolescents and their families were the first included (level 1), followed by variables related to school activities and parents' marital status (level 2) and, finally, those related to smoking and life-style of the adolescents (level 3), considered the closest to the outcome. Variables
presenting no statistical significance were removed from the model.

The project was approved by the Federal University of Mato Grosso Ethics Committee (Process no. 237, 18 January 2006). Authorization for data collection was obtained from the State Secretary of Education of Mato Grosso and from the headmasters of the schools.

Results

We studied 2,883 adolescents. Of those, 1,531 (53.1%) were female and 1,352 (46.9%) were male, with mean age of 15.2 and 13.5 years, respectively. Of the 2,883 adolescents, 1,632 (56.6%) were from public schools, and 1,251 (43.4%) were from private schools. As for school grade, 67.6% of the students were in 6th, 7th or 8th grade, whereas 32.4% were in 10th grade.

When questioned about the age at which they experimented with smoking for the first time, 13.8% reported having done so at 9 years of age, compared with 46.2% at 10 to 13 years of age and 40.0% at 14 years of age of more, resulting in a 30.2% overall prevalence of experimentation in the studied population.

Table 1 presents the sociodemographic variables of the adolescents and their families in relation to smoking experimentation. We found no difference between genders in terms of smoking experimentation. As adolescents get older, the risk of experimenting with smoking increases. We observed a linear and inverse association between smoking experimentation and parental educational and socioeconomic level, that is, the probability of the adolescent experimenting with smoking increased in direct relation to the educational and socioeconomic level of the parents, lower levels translating to increased probability. When the head of the family is a person other than the father, there is a greater probability that the adolescent will experiment with smoking. In addition, when the parents are separated, the probability that the student will experiment with smoking is 35% higher than when the parents live together.
In relation to school activities and smoking experimentation, we observed that students from public schools are at greater risk of experimenting with smoking than are those who study in private schools. In addition, the probability of experimenting with smoking increases linearly with the advance of the adolescent to the subsequent grades. Similarly, studying in the evening, having been held back a school year and not having received any classroom instruction regarding smoking can all increase the probability of the adolescent experimenting with smoking (Table 2).





Among the variables related to smoking and the lifestyle of the adolescents, we observed that those who have parents who smoke present a 54% higher probability of experimenting with smoking than do those whose parents do not smoke. Similarly, those who have friends or siblings who smoke are more than twice as likely to experiment with smoking as are those who do not have friends or siblings who smoke. The risk of experimenting with smoking also increases for those who do not engage in physical activity, practice no religion, work or receive some type of remuneration (Table 3).



Table 4 presents the results of the analysis of the hierarchical logistic regression. Children whose mothers had completed only nine years of schooling presented a greater chance of experimenting with smoking than did those whose mothers had completed 12 years of schooling or more.



Adolescents who belonged to the lowest socioeconomic levels (D and E) had a 39% greater chance of experimenting with smoking than those who belong to families with higher socioeconomic level. In level 2, we observed that students from public schools with separated parents, studying in the evenings and in the most advanced grades have greater chances of experimenting with smoking than do those who study in private schools, whose parents are not separated, who study during the day and are in the 6th or 7th grade. Variables considered closest to the outcome were included in level 3. We observed that the chance of experimenting with smoking is two times higher for youths that have a sibling who smokes and more than three times higher for those who have a friend who smokes, when compared to those who have neither friends nor siblings who smoke. Similarly, as the adolescents grow older, the chance of experimenting with smoking increases.

Discussion

The 30.2% prevalence of smoking experimentation found among the adolescents in this study can be considered high when compared with that reported in studies conducted in other Brazilian capitals.(12) This might be a consequence of an increase in experimentation over the years, since adolescents between 10 and 19 years of age were studied. However, in a study involving adolescent students in the city of Belém, Brazil,(13) a greater proportion of adolescents (44%) reported having experimented with smoking.

In relation to the sociodemographic variables, the results of this study showed that the socioeconomic and educational level of the mother affected independently the smoking experimentation. Although included in the model, the level of the education of the father showed no association with the outcome. It is known that the level of the education of the father is more related to earning power and to family income, whereas the level of the education of the mother is more related to the maternal care of the family.(14)

Many studies have shown that the level of maternal education is an important predictor of the health of the family,(14,15) that is, as the mother has more access to information, she is better prepared to care for the family. Knowing that smoking is a harmful habit, she surely will attempt to prevent the children from becoming smokers. In the present study, this is proven by the lower prevalence of smoking experimentation found among adolescents of mothers with higher levels of education (23.2% vs. 47.9%). Other studies have also shown an inverse association between schooling and the prevalence of smoking.(16)

Although some authors have demonstrated that smoking is more prevalent in males,(17,18) we found no significant association between smoking experimentation and the gender of the adolescents, after the multivariate analysis.

The participation of women in the numbers of smokers has been increasing, mainly in the younger age brackets. Until a few decades ago, it was believed that the effects of tobacco use were more pronounced in males. However, as new generations of smokers came along, it was observed that women are equally or more susceptible to the harmful effects of smoking, due to the peculiarities inherent to the gender, such as pregnancy and the concomitant use of oral contraceptives.(19) In addition, the fact that women smoke as much as men is very worrisome, from a biological viewpoint, due to the risk to their health and to the health of their children, as well as to the social functions, since the woman is a powerful role model for her children and for society.(20)

Some studies involving adolescents have shown that the smoking habits of the parents constitute a risk factor for smoking experimentation among their children.(9) However, in the present study, after adjustments for confounding factors in the multivariate analysis, no significant association between the smoking habits of the parents and smoking experimentation among adolescents was observed.

As for the marital status of the parents, this study showed that children whose parents are separated have a 23% greater chance of experimenting with smoking than do those whose parents live together. It is possible to think that this greater risk is related to social aspects and emotional interaction into which the separation is inserted, that is, the withdrawal of one or both parents, economical difficulties, moving house and greater affective distancing, among other issues, which can lead the adolescent to search for a refuge in smoking.

Similar results were obtained by another group of authors,(21) who found that adolescents whose parents are separated present a higher probability of experimenting with smoking (16.7%).

When the type of school in which the adolescent is enrolled is considered, we observe that the chance of experimenting with smoking is 56% higher for students in public schools than for those in private schools. If we consider that smoking is more prevalent among people with lower earning power,(22) it is probable that the higher prevalence found among students in public schools results from the lower socioeconomic level of their families.

We observed that higher grade level translates to a greater risk of experimenting with smoking. Therefore, those in the 10th grade have a 3.5 times greater chance of experimenting with smoking than those in 6th or 7th grade. In contrast, another study(23) showed that adolescents with 4 years of schooling had a 3.5 times greater chance of experimenting with smoking when compared with adolescents with 9 years of schooling or more.

As observed in other studies,(24,25) there was greater proportion of smoking experimentation among those who studied in the evening, who presented more than double the chance of experimenting with smoking than did those who studied during the daytime (OR = 2.44; 95% CI, 1.85‑3.22) This might be explained by the higher age bracket of those students as well as by the fact that they work.

Students who had already been held back a school year had a 2.2 times greater chance of experimenting with smoking that did those who had never been held back. Similar results were also found in other studies, showing an association between smoking experimentation in adolescence and failure in school.(21,26)

In accordance with the findings of other studies,(27,28) we observed an independent effect for the variables having friends and siblings who smoke. It means that, even after adjustments for the socioeconomic variables, potential factors of confusion, having friends and siblings who smoke remained associated with smoking experimentation. The adolescents who claimed to have friends who smoke presented almost 4 times the chance of smoking experimentation. Similarly, if the adolescent has siblings who smoke, the chance of experimenting with smoking increases by almost three times. This can be explained by the great influence of their peers, where the coexistence and acceptance of one or more smokers create repeated opportunities for the offer and consequent introduction to experimentation.(4) In addition, adolescents tend toward similar behaviors and attitudes among themselves, facilitating the integration into groups, which reinforces the importance of the relationships of proximity.(29)

In the present study, we observed that the older adolescents (those between 17 and 19 years of age), had more than twice the chance of experimenting with smoking than did those aged 10 to 12 years. It was expected that, as the adolescents grew up and had more information about the harms caused to health by smoking, they would refrain from smoking. However, that did not happen to the adolescents in this study. Similar results were obtained by other authors,(9) who observed a positive and direct association between smoking experimentation and the age bracket of the adolescents. In contrast, in a study(30) involving children and youths between 8 to 22 years of age, it was observed that the age bracket with the highest prevalence for experimentation was between 13 and 14 years.

The cross-sectional design, used in the present study, presents the advantage of relative quickness and lower costs. One limitation, however, is in the nonutilization of temporality as a causal criterion, since risk factors and outcome are observed at the same moment. Another limitation to be discussed is that the outcome was measured using a questionnaire. However, due to the fact that an anonymous questionnaire was used, we sought to minimize the occurrence of false-positive and false-negative results. However, we cannot rule out the possibility that some adolescents omitted or information or lied about experimenting with smoking.

The high proportion of adolescents who have experimented with smoking, principally those from public schools, shows the need for continuous educational measures inside educational institutions as a form of controlling smoking experimentation among adolescents.

References


1. World Health Organization [homepage on the Internet]. Geneva: The World Health Organization. [cited 2007 Nov 26]. The World Health Organization says that tobacco is bad economics all around. 2004. Available from: http://www.who.int/mediacentre/news/releases/2004/pr36/en/

2. Murray CJL, Lopes AD. Quantifying the burden of disease and injury attributable to the major risk factor. In: Murray CJ, Lopez AD, editors. The global burden of disease: a comprehensive assessment of mortality and disability from diseases, injuries, and risk factors in 1990 and projected to 2020. Global burden of disease and injury series, v. 1. Cambridge: Harvard School of Public Health on behalf of the World Health Organization and the World Bank; 1996.

3. Jha P, Chaloupka FJ. Curbing the epidemic governments and the economics of tobacco control. Washington: World Bank, 1999.

4. Brasil. Ministério da Saúde. Instituto Nacional de Câncer - INCA. Vigescola - Vigilância de tabagismo em escolares: Dados e fatos de 12 capitais brasileiras. Vol. 1. Rio de Janeiro: INCA; 2004.

5. Global Youth Tobacco Survey Collaborating Group. Differences in worldwide tobacco use by gender: findings from the Global Youth Tobacco Survey. J Sch Health. 2003;73(6):207-15.

6. Presidência da República Federativa do Brasil [homepage on the Internet]. Brasília: The Presidência; c2006-2007 [cited 2006 Mar 10]. Lei nº 8.069, de 1990. Estatuto da Criança e do Adolescente; [about 100 screens]. Available from: http://www.planalto.gov.br/ccivil_03/Leis/L8069.htm

7. Organización Mundial de la Salud. La salud de los jóvenes: um reto y una esperanza. Genebra: OMS; 1995. 120 p.

8. Galduróz JC, Noto AR, Carlini EA. IV Levantamento sobre o uso de drogas entre estudantes de 1º e 2º graus em 10 capitais brasileiras -1997. São Paulo: Centro Brasileiro de Informações Sobre o Uso de Drogas Psicotrópicas/Departamento de Psicobiologia da Universidade Federal de São Paulo; 1997.

9. Machado Neto AS, Cruz AA. Tabagismo em amostra de adolescentes escolares de Salvador-Bahia. J Pneumol. 2003;29(5):264-272.

10. Associação Brasileira de Empresas de Pesquisa - ABEP [Homepage on the Internet]. São Paulo: Associação Brasileira de Empresas de Pesquisa. [cited 2005 Jan 12]. CCEB 2003 - Critério de Classificação Econômica Brasil. Available from: http://www.abep.org/codigosguias/ABEP_CCEB.pdf

11. Victora CG, Huttly SR, Fuchs SC, Olinto MT. The role of conceptual frameworks in epidemiological analysis: a hierarchical approach. Int J Epidemiol. 1997;26(1):224-7.

12. Andrade AP, Bernardo AC, Viegas CA, Ferreira DB, Gomes TC, Sales MR. Prevalence and characteristics of smoking among youth attending the University of Brasília in Brazil. J Bras Pneumol. 2006;32(1):23-8.

13. Pinto DS, Ribeiro AS. Variables related to smoking initiation among students in public 13.and private high schools in the city of Belém, Brazil. J Bras Pneumol. 2007;33(5):558-64.

14. Gonçalves-Silva RM, Valente JG, Lemos-Santos MG, Sichieri R. Tabagismo no domicílio e doenca respiratória em criancas menores de cinco anos. Cad Saúde Pública. 2006;22(3):579-86.

15. Prietsch SO, Fischer GB, César JA, Fabris AR, Mehanna H, Ferreira TH, et al. Doença aguda das vias aéreas inferiores em menores de cinco anos: influência do ambiente doméstico e do tabagismo materno. J Pediatr. 2002;78(5):415-22.

16. Gonçalves- Silva RM, Valente JG, Lemos-Santos MG, Sichieri R. Tabagismo no domicílio e baixa estatura em menores de cinco anos. Cad Saúde Pública. 2005;21(5):1540-9.

17. Londoño FJ. Factores relacionados con el consumo de cigarrillos en escolares adolescentes de la ciudad de Medellín. Bol Oficina Sanit Panam. 1992;112(2):131-7.

18. Yang G, Fan L, Tan J, Qi G, Zhang Y, Samet JM, et al. Smoking in China: findings of the 1996 National Prevalence Survey. JAMA. 1999;282(13):1247-53.

19. Portal da Saúde [Homepage on the Internet]. Brasília: Ministério da Sáude. [cited 2006 Mar 1]. Saúde lança programa de combate ao tabagismo e pesquisa sobre perfil dos fumantes no Brasil. Available from: http://portal.saude.gov.br/portal/aplicacoes/noticias/noticias_detalhe.cfm?co_seq_noticia=9777

20. Goldfarb LM. Avaliação de um programa piloto de prevenção do tabagismo em quatro escolas do Município do Rio de Janeiro [dissertation]. Rio de Janeiro (RJ): Escola Nacional de Saúde Pública; 2000.

21. Horta BL, Calheiros P, Pinheiro RT, Tomasi E, Amaral KC. Tabagismo em adolescentes de área urbana na região Sul do Brasil. Rev Saúde Pública. 2001;35(2):159-64.

22. Ramírez MR, Andrade D. La familia y los factores de riesgo relacionados con el consumo de alcohol y tabaco em los niños y adolescentes (Guayaquil-Ecuador). Rev Latino-am Enfermagem. 2005;13(número especial):813-8.

23. Malcon MC, Menezes AM, Chatkin M. Prevalência e fatores de risco para tabagismo em adolescentes. Rev Saúde Pública. 2003;37(1):1-7.

24. Mauad EC, Bonetti LM, Silva CM, Nogueira JL, Mirra AP. Prevalência do tabagismo e seus determinantes em algumas escolas de Barretos, São Paulo, 1996. Rev Bras Cancerol. 1999; 45(1):41-4.

25. Da Silva MA, Rivera IR, Carvalho AC, Guerra Jr AH, Moreira TC. Prevalência e variáveis associadas ao hábito de fumar em crianças e adolescentes. J Pediatr. 2006;82(5):365-70.

26. Zanini RR, Moraes AB, Trindade AC, Riboldi J, Medeiros LR. Prevalência e fatores associados ao consumo de cigarros entre estudantes de escolas estaduais do ensino médio de Santa Maria, Rio Grande do Sul, Brasil, 2002. Cad Saúde Pública. 2006;22(8):1619-27.

27. Conrad KM, Flay BR, Hill D. Why children start smoking cigarettes: Predictors of onset. Br J Addict. 1992;87(12):1711-24.

28. Segat FM, Santos RP, Guillande S, Pasqualotto AC, Benuegnu LA. Fatores de risco associado ao tabagismo em adolescentes. Adolesc Latinoam. 1998;1(3):163-9.

29. Fraga S, Ramos E, Barros H. Uso de tabaco por estudantes adolescentes portugueses e fatores associados. Rev Saúde Pública. 2006;40(4):620-6.

30. Ivanovic D, Castro CG, Ivanovic R. Factores que inciden en el hábito de fumar de escolares de educación básica y media de Chile. Rev Saúde Pública. 1997;31(1):30-43.




Study conducted at the Instituto de Saúde Coletiva da Universidade Federal de Mato Grosso - ISC/UFMT, Collective Health Institute/Federal University of Mato Grosso - Cuiabá, Brazil.
1. Masters in Collective Health. Universidade Federal de Mato Grosso -UFMT, Federal University of Mato Grosso - Cuiabá, Brazil.
2. Adjunct Professor at the Nutrition School and in the Collective Health Masters Program. Instituto de Saúde Coletiva da Universidade Federal de Mato Grosso - ISC/UFMT, Collective Health Institute/Federal University of Mato Grosso - Cuiabá, Brazil.
3. Full Professor at the School of Medical Sciences and in the Collective Health Masters Program. Instituto de Saúde Coletiva da Universidade Federal de Mato Grosso - ISC/UFMT, Collective Health Institute/Federal University of Mato Grosso - Cuiabá, Brazil.
Correspondence to: Clovis Botelho. Rua Dr. Jonas Correa da Costa, 210, CEP 78030-510, Cuiabá, MT, Brazil.
Tel 55 65 3637-1471. Fax 55 65 3637-7539. E-mail: fbotelho@terra.com.br
Financial support: This study received financial support from the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES, Coordination of the Advancement of Higher Education).
Submitted: 29 November 2007. Accepted, after review: 25 February 2008.

Indexes

Development by:

© All rights reserved 2024 - Jornal Brasileiro de Pneumologia