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Open Access Research article

Smoking among pregnant women in Cantabria (Spain): trend and determinants of smoking cessation

Silvia Palma1, Rocio Pérez-Iglesias2, Rosa Pardo-Crespo2, Javier Llorca2, Marcial Mariscal1 and Miguel Delgado-Rodríguez12*

Author Affiliations

1 Division of of Preventive Medicine and Public Health, University of Jaen, Jaen, Spain

2 Division of Preventive Medicine and Public Health, University of Cantabria, Santander, Spain

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BMC Public Health 2007, 7:65  doi:10.1186/1471-2458-7-65

The electronic version of this article is the complete one and can be found online at: http://www.biomedcentral.com/1471-2458/7/65


Received:18 May 2006
Accepted:27 April 2007
Published:27 April 2007

© 2007 Palma et al; licensee BioMed Central Ltd.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Background

Cantabria (Spain) has one of the highest prevalence of smoking among women of the European Union. The objectives are to assess the trend of smoking during pregnancy in a five-year period and the determinants of smoking cessation during pregnancy in Cantabria.

Methods

A 1/6 random sample of all women delivering at the reference hospital of the region for the period 1998–2002 was drawn, 1559 women. Information was obtained from personal interview, clinical chart, and prenatal care records. In the analysis relative risks and 95% confidence intervals were estimated. Multivariable analysis was carried out using stepwise logistic regression.

Results

Smoking prior to pregnancy decreased from 53.6% in 1998 to 39.4% in 2002. A decrease in smoking cessation among women smoking at the beginning of pregnancy was observed, from 37.3% in 1998 to 20.6% in 2002. The mean number of cigarettes/day (cig/d) before pregnancy remained constant, around 16 cig/d, whereas a slight trend to increase over time was seen, from 7.7 to 8.9 cig/d. In univariate analysis two variables favoured significantly smoking cessation, although they were not included in the stepwise logistic regression analysis, a higher education level and to be married. The logistic regression model included five significant predictors (also significant in univariate analysis): intensity of smoking, number of previous pregnancies, partner's smoking status, calendar year of study period (these four variables favoured smoking continuation), and adequate prenatal care (which increased smoking cessation).

Conclusion

The frequency of smoking among pregnant women is very high in Cantabria. As smoking cessation rate has decreased over time, a change in prenatal care programme on smoking counseling is needed. Several determinants of smoking cessation, such as smoking before pregnancy and partner's smoking, should be also addressed by community programmes.

Background

Cantabria, on the Cantabrian sea (northern Spain), has the highest frequency of smoking in Spanish women and one of the highest of the European Union, 35.6%, four points above the next area, the Basque region [1]. This can imply a high prevalence of smoking during pregnancy in our region, although no data are available. Smoking cessation during pregnancy is strongly recommended because of the adverse effects of tobacco on the newborn [2,3]. Reduction of smoking frequency among pregnant women has been reported in many countries [4-6], although the change during the last decade has been small in several areas [7]. Nevertheless, some women continue smoking during pregnancy, despite counseling on stop smoking in prenatal care. The assessment of the determinants of smoking cessation can contribute to improve the efficacy of prenatal care programmes. The main objectives of this report are to analyse the evolution of smoking among pregnant women in a five-year period and to assess the determinants of smoking cessation in a European community.

Methods

The reference population was that of the region of Cantabria, northern Spain. The study period was from 1 April 1998 to 30 November 2002. Pregnant women were selected from those delivering at the University Hospital Marques de Valdecilla between 1 April 1998 and 30 November 2002 if they lived in Cantabria, the hospital's referral area. The hospital ethics committee authorised this observational study, and oral informed consent was sought from every eligible woman. During the study period, a random sample representing one-sixth of all women delivering at the hospital was drawn: all the women delivering on five days of each month, randomly selected in advance using the random number generator of a statistical program, were asked to participate. Twenty eight women declined to participate, yielding 1559 women in the study population.

The data were obtained from a personal interview, carried out within the three days after delivery, clinical charts and prenatal care records. We asked for tobacco consumption before and during pregnancy; all smokers before pregnancy continued smoking at the beginning of pregnancy (before they were aware of pregnancy). Therefore smoking prior to pregnancy and smoking at the beginning of pregnancy convey the same information. Information was obtained on the next variables: mother's vital data (age at pregnancy, race, education level, marital status, socioeconomic class, occupation), obstetric history (parity, abortions), previous adverse perinatal outcomes, conditions during pregnancy (infections, hypertension, diabetes mellitus, other obstetric conditions), prescribed and over-the-counter drugs, lifestyle (alcohol consumption, smoking), prenatal care (number of visits, date of first visit); and on the newborn (gestational age, anthropometric measures, Apgar score). Social class were coded in five main levels (ranging from I-highest- to V-lowest level-) according to the classification of the Spanish Society of Epidemiology [8], which is similar to the Black Report [9]. Prenatal care utilization was measured using the Kessner index [10]. This classification of prenatal care takes into account the month prenatal care began, the number of prenatal visits, and the duration of pregnancy; it differentiates three levels of care: adequate, intermediate, and inadequate.

In statistical analysis, the χ2 test was used to assess changes in categorical variables during the study period; if a variable was continuous one-way analysis of variance was applied. The Mantel-Haenszel extension of χ2 was used to ascertain the statistical significance of a trend for proportions. In bivariate analysis of smoking cessation, relative risks (RRs) and their 95% confidence intervals (CIs) were estimated; a RR > 1 indicates that a variable favours smoking cessation, whereas a RR < 1 denotes that a variable favours smoking continuation. To know the independent predictors smoking cessation, we developed a logistic regression model using a forward stepwise procedure. Variables with p-values lower than 15 percent were allowed in the final model. Analysis was carried out with the statistical package Stata 8/SE (College Station, Texas, USA).

Results

The evolution of several characteristics of pregnant women throughout the study period is shown in table 1. Maternal age increased from 1998 to 2002 (p < 0.001). The proportion of primiparous women did not change. Although there was a significant difference in the frequency of an education level higher than high school, no clear trend was observed. Marital status, employment out home, and social class were roughly similar throughout the study period. Adequacy of prenatal care, measured by the Kessner index, clearly improved during the study period (p < 0.001). The frequency of smoking at the beginning of pregnancy steadily decreased from 1998 to 2002 (p < 0.001), whereas the average number of cigarettes/day in smokers did not change significantly during the study period. The frequency of smoking during the whole pregnancy during the study period remains stable, although an absolute decrease of 5.2% from 1999 to 2002 was appreciated.

Table 1. Evolution for the study period of several population variables.

The history of smoking of pregnant women who were smokers at the beginning of pregnancy is detailed in table 2. The frequency of smoking cessation during pregnancy diminished from 37.3% in 1998 to 20.6% in 2002 (p < 0.001). The proportion of smokers that reduced tobacco use also increased, mainly from the year 1998 to 2000 (p < 0.001), whereas the proportion of those not changing their habit was similar along the study period. There were four women that increased smoking during pregnancy; they had received intermediate prenatal care. Pregnancy was unplanned in three of them and the four women rejected their pregnancy (they did not accept it).

Table 2. History of smoking during pregnancy in women smokers at the beginning of pregnancy.

The association between several characteristics of women and smoking cessation is displayed in table 3. These analyses are based on smokers at the beginning of pregnancy (n = 725). Variables favouring significantly smoking cessation were a higher education level, to be married, and an adequate prenatal care (measured by the Kessner index). On the opposite side, the variables contributing significantly to keep smoking were to have had a previous pregnancy, the intensity of smoking before pregnancy, partner's smoking status, and the calendar year of the study. Variables unrelated to smoking cessation were maternal age, social class, change in alcohol drinking during pregnancy, and employment outside home. A stratified analysis by the calendar year of the determinants of smoking cessation was also carried out; no major differences during the study period were observed, apart from the lost of statistical significance due to the reduction of sample size; these results are not shown.

Table 3. Variables related to smoking cessation during pregnancy (based on 725 women smoking at the beginning of pregnancy).

The independent variables related to smoking cessation yielded by a forward stepwise logistic regression model are summarized in table 4. All the variables detailed in table 3 were allowed to be in the model. Five significant predictors were included in the model. The number of cigarettes/day smoked before pregnancy was inversely related with cessation; the higher the number, the lower the frequency of cessation. The same occurred with three other variables: partner's smoking status, to have had a previous pregnancy, and the calendar year of the study period. Adequacy of prenatal care favoured smoking cessation. The addition of other variables to the model did not change any estimate of the former variables.

Table 4. Independent variables related to smoking cessation yielded by logistic regression analysis.

Discussion

We first comment on the limitations of the study. We have relied on the information given by women; their answers were not validated by cotinine measurements; therefore some degree of misclassification must be assumed. In a Spanish study, the proportion of pregnant non-smokers with negative urine cotinine (negative predictive value) was 82.9% [11]. This proportion is lower than that found in an American study [12]. where 94.9% of women who denied smoking yielded no urine cotinine. In general, it is believed that pregnant women accurately report tobacco smoking, although some under-declaration occurs [11,12]. There is no reason to believe that misclassification bias changed during the study period, so we believe that our results on the evolution of smoking in our region are reliable.

Our results agree with the decreasing frequency of smoking in women reported in Europe [13]; nevertheless, our data confirm a high prevalence of smoking among women of childbearing ages, almost 40% in 2002. The prevalence of smoking among pregnant women in Cantabria, above 30% throughout the quinquennial period 1998–2002, is one of the highest in the Western world; for instance, this figure was 21.8% in Sweden in 1992 [4], 21.2% in Finland in 1990 [14], 11.8% in the US in 1996 [5], and 4.4% in Czech Republic in 1997 [15].

The decreased frequency of smoking during pregnancy observed in Cantabria, 16.7% from 1998 to 2002, is higher than that found in other countries. In Sweden from 1983 to 1992 this figure was 7.6% [4], and 4.5% from 1987 to 1996 in the US [5] (although most of this decrease was observed for the period 1987–1990) [7]. The mean number of cigarettes/day smoked by pregnant women in Cantabria shows a slight trend to increase, although this amount is lower than the US figure, 10 cigarettes/day [5].

Our data show that the decline in smoking among pregnant women from 1998 to 2002 in Cantabria was primarily due to the overall decrease in smoking before pregnancy, not to an increased rate of smoking cessation in pregnancy; this has also been reported in the US [5]. Our figure of smoking cessation is lower than that found in other Spanish report, where 46.9% of smokers quit tobacco in pregnancy [16].

Regarding the determinants of smoking cessation, one of the most important factors is the intensity of habit at the beginning of pregnancy, being heavy smokers more reluctant to quit smoking [6,16-22]. Other predictor of smoking cessation frequently reported is partner's smoking status [17-19,21,23]. We also found this relationship in the multivariable model.

Primiparous women quit smoking more frequently than multiparous [23-27]. This is also supported in our data, where an inverse linear relationship between the number of previous pregnancies and smoking cessation has been observed.

In the US white race has been found a strong predictor of smoking in pregnancy [5,21,26-28]. In our sample the number of non-white women is small, thus we lack statistical power to draw any significant conclusion.

A high education level is negatively related with smoking [5,19,21-23,29], not found in one report [28]. In our data, a high education level increased smoking cessation in crude analysis, although this variable lost its statistical significance in multivariable analysis. Social class was unrelated to smoking cessation; in Denmark, this variable exerted only a small effect on cessation [19]. Married women showed a higher smoking cessation rate, but it lost its influence in multivariable analysis. This agrees with the results reported in other study [5].

We have only found one report relating adequacy of prenatal care to smoking cessation [6], women attending prenatal care in the first trimester quit smoking more successfully. This agrees with our results, women receiving adequate prenatal care (which by definition begins in the first trimester) show a higher rate of smoking cessation. This may also be due to personal characteristics of women: those prone to quit smoking attended more to prenatal care.

Some of the variables related to smoking cessation are not amenable by a prenatal care programme and need to be addressed by community programmes on quit smoking; this occurs with smoking before pregnancy or partner's smoking. We included in multivariable analysis the year of the study period, as a decline in smoking cessation along the study period was observed in bivariate analysis. This was done to ascertain whether other variables could take this influence into account. The effect of the year of study period remained highly significant in the multivariable model. It is important to remark that prenatal care improved considerably in Cantabria from 1998 to 2002. This was accompanied with a lower cessation rate. In Cantabria it is established in the written program of prenatal care to give advice on smoking cessation, but "how" to counsel is not detailed. In general, Spanish physicians are not trained in health education; this means that intervention on smoking cessation is low. To achieve changes in smoking behaviour among pregnant women with low-intensity interventions integrated into routine prenatal care is difficult [30]. It is assumed that counseling on smoking cessation did not change during the study period, what implies that Cantabrian pregnant women at the beinning of the 2000s are more reluctant to quit smoking than previously. This emphasizes the need to change the strategy of addressing smoking cessation in our region. Two systematic reviews have established the efficacy of smoking cessation programmes [31,32]; the following interventions are effective: a brief cessation counseling session of 5–15 minutes delivered by a trained provider, plus the provision of pregnancy specific, self help materials [32], or the Agency for Health Care Policy and Research guideline recommendations on smoking cessation [33].

Conclusion

In Cantabria (Spain) a high frequency of smoking during pregnancy has been found, associated to both a decreasing smoking cessation and an improvement of prenatal care over time. These latter facts imply the need for a different approach (within prenatal care) of health education against tobacco smoking in Cantabria. Other variables, such as previous pregnancies or marital status, cannot been managed by prenatal care programmes. Several determinants of smoking cessation (smoking prior to pregnancy, partner's smoking status) need to be addressed by community programmes.

List of abbreviations

RR: relative risk

OR: Odds ratio

CI: Confidence interval

Competing interests

The authors declare that they have no competing interests.

Authors' contributions

SP carried out the statistical analyses and drafted the manuscript. RP-I and RP-I collected the data. JL helped in the design and data collection. MM helped to draft the manuscript and statistical analysis. MD-R conceived the study, and participated in its design and coordination, and helped to draft the manuscript. All authors read and approved the final manuscript.

Acknowledgements

This work has been funded by the Andalusian Regional Ministry of Education & Science (CTS 435) and research funds provided by the Foundation Marqués de Valdecilla of Santander (University of Cantabria).

References

  1. Dirección General de Salud Pública: Informe sobre la Salud de los Españoles: 1998. Madrid: Ministerio de Sanidad y Consumo; 1999:182-191.

  2. Savitz DA, Dole N, Terry JW Jr, Zhou H, Thorp JM Jr: Smoking and pregnancy outcome among African-American and white women in central North Carolina.

    Epidemiology 2001, 12:636-642. PubMed Abstract | Publisher Full Text OpenURL

  3. DiFranza JR, Lew RA: Effect of maternal cigarette smoking on pregnancy complications and sudden infant death syndrome.

    J Fam Pract 1995, 40:385-394. PubMed Abstract OpenURL

  4. Cnattingius S, Haglund B: Decreasing smoking prevalence during pregnancy in Sweden: the effect on small-for-gestational-age births.

    Am J Public Health 1997, 87:410-413. PubMed Abstract | PubMed Central Full Text OpenURL

  5. Ebrahim SH, Floyd RL, Merritt RK 2nd, Decoufle P, Holtzman D: Trends in pregnancy-related smoking rates in the United States, 1987–1996.

    JAMA 2000, 283:361-366. PubMed Abstract | Publisher Full Text OpenURL

  6. Mohsin M, Bauman AE: Socio-demographic factors associated with smoking and smoking cessation among 426,344 pregnant women in New South Wales, Australia.

    BMC Public Health 2005, 5:138. PubMed Abstract | BioMed Central Full Text | PubMed Central Full Text OpenURL

  7. Ebrahim SH, Decoufle P, Palakathodi AS: Combined tobacco and alcohol use by pregnant and reproductive-aged women in the United States.

    Obstet Gynecol 2000, 96:767-771. PubMed Abstract | Publisher Full Text OpenURL

  8. Álvarez-Dardet C, Alonso J, Domingo A, Regidor E: La Medición de la Clase Social en Ciencias de la Salud. Informe de un Grupo de Trabajo de la Sociedad Española de Epidemiología. Madrid: SG Editores; 1995.

  9. Townsend P, Davidson N: Inequalities in health. The Black Report. Hammonsworth: Penguin Books Ltd.; 1982.

  10. Kessner DM, Singer J, Kalk CE, Schlesinger ER: Infant Death: An Analysis by Maternal Risk and Health Care. Contrasts in Health Status. Washington DC: Institute of Medicine, National Academy of Sciences; 1973:59.

  11. Castellanos ME, Munoz MI, Nebot M, Paya A, Rovira MT, Planasa S, Sanroma M, Carreras R: Validez del consumo declarado de tabaco en el embarazo.

    Aten Primaria 2000, 26:629-632. PubMed Abstract | Publisher Full Text OpenURL

  12. Klebanoff MA, Levine RJ, Clemens JD, DerSimonian R, Wilkins DG: Serum cotinine concentration and self-reported smoking during pregnancy.

    Am J Epidemiol 1998, 148:259-262. PubMed Abstract | Publisher Full Text OpenURL

  13. Graham H: Smoking prevalence among women in the European community 1950–1990.

    Soc Sci Med 1996, 43:243-254. PubMed Abstract | Publisher Full Text OpenURL

  14. Bardy AH, Seppala T, Lillsunde P, Koskela P, Gref CG: Objectively measured tobacco exposure among pregnant women in Finland in 1986 and 1990.

    Acta Obstet Gynecol Scand 1994, 73:30-34. PubMed Abstract OpenURL

  15. Hruba D, Kachlik P: Influence of maternal active and passive smoking during pregnancy on birthweight in newborns.

    Cent Eur J Public Health 2000, 8:249-252. PubMed Abstract OpenURL

  16. Lopez A, Bosch F, Jimenez E, Cos R, Cayuela E, Foradada C, Banos JE: El embarazo como factor modulador del consumo de tabaco y alcohol.

    Aten Primaria 1998, 22:150-157. PubMed Abstract | Publisher Full Text OpenURL

  17. Jane M, Nebot M, Badi M, Berjano B, Munoz M, Rodriguez MC, Querol A, Cabero L: Factores determinantes del abandono del tabaquismo durante el embarazo.

    Med Clin (Barc) 2000, 114:132-135. PubMed Abstract | Publisher Full Text OpenURL

  18. Woodby LL, Windsor RA, Snyder SW, Kohler CL, Diclemente CC: Predictors of smoking cessation during pregnancy.

    Addiction 1999, 94:283-292. PubMed Abstract | Publisher Full Text OpenURL

  19. Olsen J: Predictors of smoking cessation in pregnancy.

    Scand J Soc Med 1993, 21:197-202. PubMed Abstract OpenURL

  20. Ma Y, Goins KV, Pbert L, Ockene JK: Predictors of smoking cessation in pregnancy and maintenance postpartum in low-income women.

    Matern Child Health J 2005, 9:393-402. PubMed Abstract | Publisher Full Text OpenURL

  21. Ockene J, Ma Y, Zapka J, Pbert L, Valentine Goins K, Stoddard A: Spontaneous cessation of smoking and alcohol use among low-income pregnant women.

    Am J Prev Med 2002, 23:150-159. PubMed Abstract | Publisher Full Text OpenURL

  22. Yu SM, Park CH, Schwalberg RH: Factors associated with smoking cessation among U.S. pregnant women.

    Matern Child Health J 2002, 6:89-97. PubMed Abstract | Publisher Full Text OpenURL

  23. Orr ST, Newton E, Tarwater PM, Weismiller D: Factors associated with prenatal smoking among black women in eastern North Carolina.

    Matern Child Health J 2005, 9:245-252. PubMed Abstract | Publisher Full Text OpenURL

  24. Suzuki J, Kikuma H, Kawaminami K, Shima M: Predictors of smoking cessation during pregnancy among the women of Yamato and Ayase municipalities in Japan.

    Public Health 2005, 119:679-685. PubMed Abstract | Publisher Full Text OpenURL

  25. McLeod D, Pullon S, Cookson T: Factors that influence changes in smoking behaviour during pregnancy.

    N Z Med J 2003, 116:U418. PubMed Abstract OpenURL

  26. Pirie PL, Lando H, Curry SJ, McBride CM, Grothaus LC: Tobacco, alcohol, and caffeine use and cessation in early pregnancy.

    Am J Prev Med 2000, 18:54-61. PubMed Abstract | Publisher Full Text OpenURL

  27. Dietz PM, Adams MM, Rochat RW, Mathis MP: Prenatal smoking in two consecutive pregnancies: Georgia, 1989–1992.

    Matern Child Health J 1997, 1:43-51. PubMed Abstract | Publisher Full Text OpenURL

  28. Arnold CL, Davis TC, Berkel HJ, Jackson RH, Nandy I, London S: Smoking status, reading level, and knowledge of tobacco effects among low-income pregnant women.

    Prev Med 2001, 32:313-320. PubMed Abstract | Publisher Full Text OpenURL

  29. Lodewijckx E, De Groof V: Smoking and alcohol consumption by Flemish pregnant women, 1966–83.

    J Biosoc Sci 1990, 22:43-51. PubMed Abstract OpenURL

  30. Kendrick JS, Zahniser SC, Miller N, Salas N, Stine J, Gargiullo PM, Floyd RL, Spierto FW, Sexton M, Metzger RW: Integrating smoking cessation into routine public prenatal care: the Smoking Cessation in Pregnancy project.

    Am J Public Health 1995, 85:217-222. PubMed Abstract | PubMed Central Full Text OpenURL

  31. Lumley J, Oliver S, Waters E: Interventions for promoting smoking cessation during pregnancy.

    Cochrane Database Syst Rev 2000, 2:CD001055. PubMed Abstract OpenURL

  32. Melvin CL, Dolan Mullen P, Windsor RA, Whiteside HP Jr, Goldenberg RL: Recommended cessation counselling for pregnant women who smoke: a review of the evidence.

    Tob Control 2000, 9(Suppl 3):III80-84. PubMed Abstract | Publisher Full Text OpenURL

  33. Windsor RA, Woodby LL, Miller TM, Hardin JM, Crawford MA, DiClemente CC: Effectiveness of Agency for Health Care Policy and Research clinical practice guideline and patient education methods for pregnant smokers in medicaid maternity care.

    Am J Obstet Gynecol 2000, 182:68-75. PubMed Abstract | Publisher Full Text OpenURL

Pre-publication history

The pre-publication history for this paper can be accessed here:

http://www.biomedcentral.com/1471-2458/7/65/prepub