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

Licença Creative Commons
9474
Views
Back to summary
Open Access Peer-Reviewed
Artigo Original

Nicotine dependence and smoking habits in patients with head and neck cancer

Dependência nicotínica e perfil tabágico em pacientes com câncer de cabeça e pescoço

Adriana Ávila de Almeida, Celso Muller Bandeira, Antonio José Gonçalves, Alberto José Araújo

ABSTRACT

Objective: To assess smoking habits and nicotine dependence (ND) in patients with head and neck cancer Methods: This study involved 71 smokers or former smokers with squamous cell carcinoma in the oral cavity, pharynx, or larynx who were treated at a university hospital in the city of São Paulo between January and May of 2010. We used the Fagerström Test for Nicotine Dependence to evaluate smoking habits and ND in the sample. Data regarding cancer treatment were collected from medical records. Depending on the variables studied, we used the chi-square test, Fisher's exact test, Student's t-test, or Spearman's correlation test. Results: Of the 71 patients, 47 (66.2%) presented with high or very high ND, 40 (56.3%) smoked more than 20 cigarettes/day, and 32 (45.1%) smoked their first cigarette within 5 min of awakening. Advanced disease stage correlated significantly with the number of cigarettes smoked per day (p = 0.011) and with smoking history (p = 0.047). We found that ND did not correlate significantly with gender, disease stage, smoking cessation, or number of smoking cessation attempts, nor did the number of cigarettes smoked per day correlate with smoking cessation or gender. Treatment for smoking cessation was not routinely offered. Conclusions: In most of the patients studied, the level of ND was high or very high. The prevalence of heavy smoking for long periods was high in our sample. A diagnosis of cancer is a motivating factor for smoking cessation. However, intensive smoking cessation treatment is not routinely offered to smoking patients diagnosed with cancer.

Keywords: Head and neck neoplasms; Tobacco use disorder; Smoking cessation.

RESUMO

Objetivo: Avaliar o perfil tabágico (PT) e a dependência nicotínica (DN) em pacientes com câncer de cabeça e pescoço. Métodos: Estudo realizado com 71 pacientes portadores de carcinoma epidermoide de cavidade oral, faringe e laringe, tabagistas ou ex-tabagistas, atendidos em um hospital universitário da cidade de São Paulo entre janeiro e maio de 2010. Utilizou-se o Teste de Fagerström para Dependência de Nicotina para avaliar PT e DN na amostra. Informações sobre o tratamento oncológico foram coletadas dos prontuários. Foram utilizados os testes do qui-quadrado, exato de Fisher ou t de Student, assim como o teste de correlação de Spearman conforme as variáveis estudadas. Resultados: Dos 71 pacientes, 47 (66,2%) apresentavam DN elevada ou muito elevada, 40 (56,3%) fumavam mais de 20 cigarros/dia, e 32 (45,1%) fumavam seu primeiro cigarro até 5 min após acordar. Houve associações significativas do estádio avançado da doença com a quantidade de cigarros fumados por dia (p = 0,011) e a carga tabágica (p = 0,047). Não houve diferenças significativas da DN em relação a sexo, estádio da doença, cessação tabágica ou tentativas anteriores de cessação, nem como do número de cigarros fumados ao dia em relação a cessação ou sexo. O tratamento do tabagismo não foi rotineiramente oferecido. Conclusões: A DN foi elevada ou muito elevada na maioria dos pacientes estudados. A prevalência de grandes fumantes por longos períodos foi alta em nossa amostra. O diagnóstico de câncer é um fator motivador para a cessação tabágica; entretanto, o tratamento intensivo do tabagismo ainda não é rotineiramente oferecido a fumantes diagnosticados com câncer.

Palavras-chave: Neoplasias de cabeça e pescoço; Transtorno por uso de tabaco; Abandono do hábito de fumar.

Introduction

The World Health Organization considers smoking to be the leading preventable cause of death worldwide and a chronic recurrent disease caused by nicotine dependence (ND).(1) Most smokers are unaware of the damage caused by chronic tobacco use, and nearly half will die of a tobacco-related disease.(1) Tobacco is the most important risk factor for cancer and more than 50 diseases. More than 5,300 components, of which at least 70 are carcinogens, have been identified in tobacco smoke.(2)

Squamous cell carcinoma of the oral cavity, pharynx, and larynx are among the 10 most common types of cancer in men.(3,4) Cancer of the oral cavity is considered a public health problem worldwide. In Brazil, it ranks fifth among men, and it is estimated that, in 2014, there will be 11,280 new cases among men and 4,010 new cases among women. Worldwide, laryngeal cancer ranks second among respiratory tract tumors, with 160,000 new cases per year. In Brazil, it ranks seventh among men, and its incidence is higher from the fourth decade of life onward. According to data from the Brazilian National Cancer Institute, in 2014, it is estimated that there will be 6,870 new cases of laryngeal cancer among men and 770 new cases of laryngeal cancer among women.(5)

Chief among the major risk factors are smoking and alcoholism. Studies have shown that the risk of developing cancer of the oral cavity and larynx is much higher in smokers and drinkers, depending on the duration of smoking, the number of cigarettes smoked per day, and the frequency of alcohol intake.(3-5)

Continuing to smoke after a diagnosis of cancer contributes to a higher risk of complications during treatment and to decreased responses to radiotherapy and chemotherapy, as well as leading to worsening of other tobacco-related diseases. Maintaining tobacco use increases the risk of recurrence and of developing a second primary tumor, with decreased quality of life and overall survival.(6-9)

A complex behavior, ND is influenced by genetic, social, and environmental factors, and is therefore considered a chronic disease that requires repeated interventions.(10-12) Some studies have shown that, in cancer patients, ND is higher.(13-16)

The Fagerström Test for Nicotine Dependence (FTND) has emerged as a quick, easily administered instrument to assess ND, is widely used worldwide, and has been validated in several languages and populations.(13,17,18)

The assessment of ND in patients with tobacco-related cancer makes it possible to identify which patients may have difficulty in quitting smoking.(8,18,19)

Considering that the vast majority of patients with head and neck cancer are heavy smokers and that quitting smoking has tangible benefits in cancer treatment, we decided to conduct a study on smoking habits and ND in this population in order to provide data for interventions and approaches that are more effective for smoking cessation in cancer patients.

Methods

This was an observational study involving patients with squamous cell carcinoma of the oral cavity, pharynx, or larynx who were treated at the Head and Neck Surgery Outpatient Clinic of the Santa Casa de São Paulo School of Medical Sciences, in the city of São Paulo, Brazil. The study design was submitted to and approved by the local ethics committee.

We consecutively recruited 71 subjects who met the eligibility criteria and were treated between January and May of 2010. All participants were interviewed by the same investigator and were informed of the objectives of the study. After reading the written informed consent form, they agreed to complete the questionnaire regarding ND and smoking habits.

Data regarding cancer staging and treatment were collected from medical records. Laryngectomized patients who were unable to speak completed the questionnaire by reading the questions and indicating or pointing to responses. Patients were operated on the Santa Casa de São Paulo over a time period ranging from one month to 15 years. We excluded patients with tumors of the nasopharynx or lip because these tumors do not have smoking as their major risk factor.

Active smokers were defined as subjects who had smoked at least 100 cigarettes in their lifetime and who, at the time of the interview, continued to smoke daily or occasionally. Smoking history was quantified by pack-years of cigarettes smoked.

For the purposes of statistical analysis, patients were separated into two groups according to their FTND scores: 0 to 5 points (very low to moderate dependence); and 6 to 10 points (high or very high dependence).

The analysis of smoking habits included questions regarding current cigarette use, age at smoking initiation, type of tobacco used, amount of tobacco used, and duration of use. Patients were asked questions regarding the number of smoking cessation attempts and the use of pharmacological treatment for smoking cessation. We assessed emotional factors (anxiety, sadness, and happiness) associated with the act of smoking, as well as behavioral factors (coffee consumption, alcohol consumption, having meals, talking on the phone, and the work environment). In addition, we obtained data regarding withdrawal symptoms after smoking cessation, contact with smokers, and number of relapses.

The presence of withdrawal symptoms was defined as the presence of one or more of the symptoms included in the definitions of tobacco withdrawal syndrome established in the Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition (irritability, depression, restlessness, insomnia, anxiety, hunger, and lack of concentration).(20)

Patients were asked questions regarding regular alcohol use, and the Cut down, Annoyed, Guilty, and Eye-opener (CAGE) questionnaire was used to assess risky alcohol use.(21) Alcohol abuse and dependence was defined as responding affirmatively to two or more questions.

For statistical purposes, patients were classified into two groups: early stages (stages I and II); and advanced stages (stages III and IV). For the same reason, patients were gathered in two groups according to the number of smoking cessation attempts: those who had not made any attempts (no attempts); and those who had made at least one attempt (one or more attempts). The responses to the first question on the FTND, i.e., the one that assesses the time to smoke the first cigarette of the day, were divided into "within 30 min of awakening" and "after 30 min of awakening".

All data were analyzed by the Statistical Package for the Social Sciences, version 13 (SPSS Inc., Chicago, IL, USA). The results were assessed by the chi-square test, Fisher's exact test, Student's t-test, or Spearman's correlation test, as appropriate. For all tests, the level of significance was set at 5%.

Results

The present study included 71 patients with squamous cell carcinoma of the oral cavity, pharynx, or larynx. Table 1 shows the general characteristics of the patients studied. In our sample, 59 patients (83.1%) were male and 52 (73.2%) were White. The mean age of the sample was 61.4  8.1 years. The mean age at smoking initiation was 15.6  3.7 years (range, 6-30). The mean duration of tobacco use was 40.4  10.7 years. Of the 71 patients, 50 (70.4%) had advanced stages of disease. Commercial cigarettes were the most commonly used type of tobacco (in (98.6%), 70 patients (98.6%) reported contact with smokers at home or at work, and 31 (43.7%) had never tried to quit smoking.



The mean FTND score was 5.8  2.3 points for the sample as a whole. Of the respondents, 47 (66.2%) had a high or very high FTND score (Tables 1 and 2). We found that ND did not correlate significantly with gender (p = 0.970), disease stage (p = 0.620), smoking cessation (p = 0.251), or number of smoking cessation attempts (p = 0.792; Table 3).





Of the 63 patients (88.7%) who ceased smoking, 43 (60.5%) did so after diagnosis or during treatment. Of those who ceased smoking, 40 (63.5%) had a high or very high FTND score.

We found that smoking cessation did not show statistically significant correlations with level of ND (p = 0.251), with number of cigarettes smoked per day (p = 0.507), or with time to smoke the first cigarette of the day (p = 0.673; Tables 3 and 4).

In our sample, 40 patients (56.3%) smoked more than 20 cigarettes/day, and the mean smoking history was 60.5  29.8 pack-years. Although the number of cigarettes smoked per day did not correlate with the success of cessation attempts (p = 0.507) or with gender (p = 0.261), it correlated significantly with disease stage (p = 0.011; Table 4).



We found that smoking history correlated significantly with disease stage (p = 0.047) but not with time to smoke the first cigarette of the day (p = 0.270) or with smoking cessation (p = 0.960; Table 5). When we examined the association between smoking history and disease stage by using Spearman's correlation test, we found no significant correlation (r = 0.184; p = 0.125).



Of the 71 study participants, only 3 used smoking cessation medication. Two were successfully treated with nicotine replacement therapy, and one used bupropion but relapsed. Of the 61 subjects who did not use medication, 43 (70.5%) reported withdrawal symptoms during smoking cessation, and, of those, 29 (46%) presented with high or very high dependence. Anxiety was the most commonly reported withdrawal symptom among those who ceased smoking.

Regarding alcohol use, 66 subjects (93%) responded affirmatively to at least two of the four questions on the CAGE questionnaire.

The workplace, meal times, and coffee or alcohol consumption were considered triggers for smoking for the vast majority of respondents, whereas anxiety was the emotional factor most commonly associated with the act of smoking (Table 1).

Discussion

Squamous cell carcinoma of the head and neck is one of the most common types of cancer worldwide, and the prevalence of heavy smoking is high in this group.(3,13,15) Considering that continuing to smoke after a diagnosis of cancer contributes to a higher risk of complications during treatment and of development of a second primary tumor,(6-8,22) the present study was designed to assess ND and smoking habits in this population.

The assessment of ND in cancer patients can contribute to the development of an approach that is more effective and has longer-term effects in terms of smoking cessation.(8,15,22,23) Although the FTND does not assess motivational or emotional components, it is able to predict withdrawal symptoms and guide the pharmacological treatment during smoking cessation.(22,24)

In our sample, we found 47 subjects (66.2%) with high or very high ND. These results confirm the findings of other studies that also reported high ND in head and neck cancer patients.(13,19) We found that ND did not correlate with gender, disease stage, smoking cessation, or number of smoking cessation attempts. We also found that the number of cigarettes smoked per day did not correlate significantly with smoking cessation or gender.

Questions 1 and 4 on the FTND are the ones of greatest importance.(17,24) In our sample, 55 subjects (77.5%) reported smoking their first cigarette within 30 min of awakening, and 32 (45.1%) smoked more than 30 cigarettes per day. These data are consistent with those of a study(24) of 301 regular smokers, which showed that a shorter time to smoke the first cigarette of the day and a greater number of cigarettes smoked per day translated into a greater level of ND.

Many patients continue to smoke even though they are aware that smoking is a risk factor for morbidity and a factor increasing morbidity during treatment.(8,9,13-16,22) However, in our sample, 63 patients (88.7%) ceased tobacco use. Of those, only 2 received pharmacological treatment (nicotine patch). This result confirms literature reports that smoking after a cancer diagnosis is yet to be routinely addressed as a disease requiring treatment.(8,9,16,23)

Our results for age at smoking initiation were similar to those reported in the literature-90% of smokers start smoking before 19 years of age. Earlier age at smoking initiation is known to translate into a greater chance of becoming dependent.(25) In our sample, the mean age at smoking initiation was 15.6  3.7 years (range, 6-30 years).

Smoking is a recurrent disease, and multiple cessation attempts are common until permanent cessation success is achieved.(10,26) In our sample, 40 subjects had made at least one attempt.

The mean smoking history was 60.5  29.8 pack-years. There was a significant association between smoking history and disease stage (p = 0.047; chi-square test). However, when we examined the association between smoking history and disease stage by using Spearman's correlation test, we found no significant correlation (r = 0.184; p = 0.125). This difference can be explained by the fact that Spearman's correlation test requires linear correlation of distribution, which cannot be seen when considering subgroups of early disease patients and advanced disease patients.


Analysis of smoking history revealed that the number of cigarettes smoked ever did not affect the success of cessation attempts (p = 0.960).

In our study, 66 subjects (93%) were considered alcohol dependent by the CAGE questionnaire.(21) In addition, alcohol was reported as a trigger for tobacco use by 61 subjects (85.9%), which is a cause for concern, especially in cases of alcohol abuse and smoking. Because smoking and alcoholism are important risk factors, they should be treated concurrently in patients with head and neck cancer.(3,4,7,13,22)

The time of diagnosis and the course of treatment are a great opportunity for promoting behavioral changes, and we should encourage cessation of tobacco and alcohol use; however, this approach should be tailored to each patient. (13-15,22) The basic model of intervention should progressively increase in intensity according to the needs of the patient, also including adjuvant pharmacological treatment.(8,12,13,19,22,23)

Cancer treatment is frequently accompanied by the discomfort of surgery, radiotherapy, and/or chemotherapy. These factors alone could contribute to patients experiencing anxiety or mood swings, or an exacerbation of these problems, which could add to or be mistaken for the withdrawal symptoms due to concurrent cessation of tobacco and (in many cases) alcohol use.(14)

Smoking cessation interventions in oncology should focus not only on the risks of continued tobacco use, but also, and mainly, on supporting long-term abstinence and reducing relapse risk factors, which are very common in this population. (8,9,23,27)

It is essential that oncologists understand that smoking and alcoholism are diseases that should be approached and treated properly and are components of the cancer treatment process as a whole.(9,16,23,27)

The present study has some limitations to be considered. First, although there are scales for assessing withdrawal symptoms, we concluded that it would be difficult to apply them because of the long period of continued abstinence of the former smokers in the present study. Second, although the literature reports similar results for the FTND in smokers and former smokers, it is possible that the long interval between smoking cessation and the administration of the questionnaire influenced patients' responses, thereby reducing the sensitivity of the test.(28-30)

In conclusion, the level of ND was high or very high in most patients in our study, and the prevalence of heavy smoking (more than 20 cigarettes/day) for long periods was high. Although most respondents were successful in smoking cessation, withdrawal symptoms were common and pharmacological treatment was not routinely offered. There was a significant association between smoking history and advanced disease stage. The approach to head and neck cancer patients who smoke is a window of opportunity for offering smoking cessation treatment. A diagnosis of cancer is a motivator for smoking cessation. However, intensive smoking cessation treatment is not routinely performed.

References

1. World Health Organization [homepage on the Internet]. Geneva: World Health Organization [cited 2014 Feb 26]. WHO report on the global tobacco epidemic, 2011: warning about the dangers of tobacco. [Adobe Acrobat document, 164p.]. Available from: http://whqlibdoc.who.int/publications/2011/9789240687813_eng.pdf

2. World Health Organization. International Agency for Research on Cancer (IARC). IARC Monographs on the Evaluation of Carcinogenic Risks to Humans: Vol 100E--Tobacco Smoking [monograph on the Internet]. Lyon: IARC; 2012 [cited 2014 Feb 26]. [Adobe Acrobat document, 170p.]. Available from: http://monographs.iarc.fr/ENG/Monographs/vol100E/mono100E-6.pdf

3. Curado MP, Hashibe M. Recent changes in the epidemiology of head and neck cancer. Curr Opin Oncol. 2009;21(3):194-200. http://dx.doi.org/10.1097/CCO.0b013e32832a68ca

4. Wünsch-Filho V. The epidemiology of oral and pharynx cancer in Brazil. Oral Oncol. 2002;38(8):737-46. http://dx.doi.org/10.1016/S1368-8375(02)00066-0

5. Ministério da Saúde. Instituto Nacional do Câncer José Alencar Gomes da Silva [homepage on the Internet]. Rio de Janeiro: INCA [cited 2014 Feb 26].Estimativa 2014 - Incidência de Câncer no Brasil 2014. [Adobe Acrobat document, 126p.]. Available from: http://www.inca.gov.br/estimativa/2014/estimativa-24012014.pdf

6. Chen AM, Chen LM, Vaughan A, Sreeraman R, Farwell DG, Luu Q, et al. Tobacco smoking during radiation therapy for head-and-neck cancer is associated with unfavorable outcome. Int J Radiat Oncol Biol Phys. 2011;79(2):414-9. http://dx.doi.org/10.1016/j.ijrobp.2009.10.050

7. León X, del Prado Venegas M, Orús C, López M, García J, Quer M. Influence of the persistence of tobacco and alcohol use in the appearance of second neoplasm in patients with a head and neck cancer. A case-control study. Cancer Causes Control. 2009;20(5):645-52. http://dx.doi.org/10.1007/s10552-008-9277-8

8. Toll BA, Brandon TH, Gritz ER, Warren GW, Herbst RS; AACR Subcommittee on Tobacco and Cancer. Assessing tobacco use by cancer patients and facilitating cessation: an American Association for Cancer Research policy statement. Clin Cancer Res. 2013;19(8):1941-8. http://dx.doi.org/10.1158/1078-0432.CCR-13-0666

9. Pinto FR, Matos LL, Gumz Segundo W, Vanni CM, Rosa DS, Kanda JL. Tobacco and alcohol use after head and neck cancer treatment: influence of the type of oncological treatment employed. Rev Assoc Med Bras. 2011;57(2):171-6. http://dx.doi.org/10.1590/S0104-42302011000200014

10. Reichert J, Araújo AJ, Gonçalves CM, Godoy I, Chatkin JM, Sales MP, et al. Smoking cessation guidelines--2008. J Bras Pneumol. 2008;34(10):845-80. http://dx.doi.org/10.1590/S1806-37132008001000014

11. Chatkin JM. The influence of genetics on nicotine dependence and the role of pharmacogenetics in treating the smoking habit. J Bras Pneumol. 2006;32(6):573-9. http://dx.doi.org/10.1590/S1806-37132006000600016

12. Henningfield JE, Shiffman S, Ferguson SG, Gritz ER. Tobacco dependence and withdrawal: science base, challenges and opportunities for pharmacotherapy. Pharmacol Ther. 2009;123(1):1-16. http://dx.doi.org/10.1016/j.pharmthera.2009.03.011

13. Gritz ER, Carr CR, Rapkin DA, Chang C, Beumer J, Ward PH. A smoking cessation intervention for head and neck cancer patients: trial design, patient accrual, and characteristics. Cancer Epidemiol Biomarkers Prev. 1991;1(1):67-73.

14. Gritz ER, Schacherer C, Koehly L, Nielsen IR, Abemayor E. Smoking withdrawal and relapse in head and neck cancer patients. Head Neck. 1999;21(5):420-7. http://dx.doi.org/10.1002/(SICI)1097-0347(199908)21:5<420::AID-HED7>3.0.CO;2-U

15. Cox LS, Africano NL, Tercyak KP, Taylor KL. Nicotine dependence treatment for patients with cancer. Cancer. 2003;98(3):632-44. http://dx.doi.org/10.1002/cncr.11538

16. Duffy SA, Louzon SA, Gritz ER. Why do cancer patients smoke and what can providers do about it? Community Oncol. 2012;9(11):344-52. http://dx.doi.org/10.1016/j.cmonc.2012.10.003

17. Heatherton TF, Kozlowski LT, Frecker RC, Fagerström KO. The Fagerström Test for Nicotine Dependence: a revision of the Fagerström Tolerance Questionnaire. Br J Addict. 1991;86(9):1119-27. http://dx.doi.org/10.1111/j.1360-0443.1991.tb01879.x

18. Mikami I, Akechi T, Kugaya A, Okuyama T, Nakano T, Okamura H, et al. Screening for nicotine dependence among smoking-related cancer patients. Jpn J Cancer Res. 1999;90(10):1071-5. http://dx.doi.org/10.1111/j.1349-7006.1999.tb00679.x

19. Sharp L, Johansson H, Fagerström K, Rutqvist LE. Smoking cessation among patients with head and neck cancer: cancer as a 'teachable moment'. Eur J Cancer Care (Engl). 2008;17(2):114-9. http://dx.doi.org/10.1111/j.1365-2354.2007.00815.x

20. Associação Americana de Psiquiatria. Manual Diagnóstico e Estatístico de Transtornos Mentais--DSM-4, 4a edição. Porto Alegre; Artmed; 1994.

21. Masur J, Monteiro MG. Validation of the "CAGE" alcoholism screening test in a Brazilian psychiatric inpatient hospital setting. Braz J Med Biol Res. 1983;16(3):215-8.

22. Gritz ER, Carr CR, Rapkin D, Abemayor E, Chang LJ, Wong WK, et al. Predictors of long-term smoking cessation in head and neck cancer patients. Cancer Epidemiol Biomarkers Prev. 1993;2(3):261-70.

23. Balogh EP, Dresler C, Fleury ME, Gritz ER, Kean TJ, Myers ML, et al. Reducing tobacco-related cancer incidence and mortality: summary of an institute of medicine workshop. Oncologist. 2014;19(1):21-31. http://dx.doi.org/10.1634/theoncologist.2013-0230

24. Halty LS, Hüttner MD, Oliveira Netto IC, Santos VA, Martins G. Análise da utilização do Questionário de Tolerância de Fagerström (QTF) como instrumento de medida da dependência nicotínica. J Pneumologia. 2002;28(4):180-6. http://dx.doi.org/10.1590/S0102-35862002000400002

25. Lando HA, Hipple BJ, Muramoto M, Klein JD, Prokhorov AV, Ossip DJ, et al. Tobacco is a global paediatric concern. Bull World Health Organ [serial on the Internet]. 2010 Jan [cited 2012 Jan 20];88(1):[about 3p.]. Available from: http://www.who.int/bulletin/volumes/88/1/09-069583/en/.

26. 2008 PHS Guideline Update Panel, Liaisons, and Staff. Treating tobacco use and dependence: 2008 update U.S. Public Health Service Clinical Practice Guideline executive summary. Respir Care. 2008;53(9):1217-22.

27. Gritz ER, Toll BA, Warren GW. Tobacco use in the oncology setting: advancing clinical practice and research. Cancer Epidemiol Biomarkers Prev. 2014;23(1):3-9. http://dx.doi.org/10.1158/1055-9965.EPI-13-0896

28. Meneses-Gaya IC, Zuardi AW, Loureiro SR, Crippa JA. Psychometric properties of the Fagerström Test for Nicotine Dependence. J Bras Pneumol. J Bras Pneumol. 2009;35(1):73-82. http://dx.doi.org/10.1590/S1806-37132009000100011

29. Vink JM, Willemsen G, Beem AL, Boomsma DI. The Fagerström Test for Nicotine Dependence in a Dutch sample of daily smokers and ex-smokers. Addict Behav. 2005;30(3):575-9. http://dx.doi.org/10.1016/j.addbeh.2004.05.023

30. Hudmon KS, Pomerleau CS, Brigham J, Javitz H, Swan GE. Validity of retrospective as-sessments of nicotine dependence: a preliminary report. Addict Behav. 2005;30(3):613-7. http://dx.doi.org/10.1016/j.addbeh.2004.08.006




*Study carried out at the Santa Casa de Misericórdia de São Paulo School of Medical Sciences, São Paulo, Brazil.
Correspondence to: Adriana Ávila de Almeida. Avenida dos Astronautas, 1758, CEP 12227-010, São José dos Campos, São Paulo, SP, Brasil.
Tel. 55 12 3208-6140. E-mail: celdrica2003@yahoo.com.br
Financial support: None.
Submitted: 29 August 2013. Accepted, after review: 8 May 2014.




About the authors

Adriana Ávila de Almeida
Pulmonologist. Santa Casa de Misericórdia de São Paulo School of Medical
Sciences, São Paulo, Brazil.

Celso Muller Bandeira
Head and Neck Surgeon. Santa Casa de Misericórdia de São Paulo School of Medical Sciences, São Paulo, Brazil.

Antonio José Gonçalves
Full Professor. Department of Surgery, Santa Casa de Misericórdia de São Paulo School of Medical Sciences, São Paulo, Brazil.

Alberto José Araújo
Pulmonologist and Coordinator. Center for the Study and Treatment of Smoking, Thoracic Diseases Institute, Clementino Fraga Filho University Hospital, Federal University of Rio de Janeiro, Rio de Janeiro, Brazil.

Indexes

Development by:

© All rights reserved 2024 - Jornal Brasileiro de Pneumologia