The effect of maternal smoking during pregnancy on early infant lung function.

We studied the effect of prenatal maternal cigarette smoking on the pulmonary function (PF) of 80 healthy infants tested shortly after birth (mean, 4.2 +/- 1.9 wk). Mothers' prenatal smoking was measured by: (1) questionnaire reports at each prenatal visit of the number of cigarettes smoked per day, and (2) urine cotinine concentrations (corrected for creatinine) obtained at each visit. Infant PF was assessed by partial expiratory flow-volume curves and helium-dilution measurement of FRC. Forced expiratory flow rates were significantly lower in infants born to smoking mothers, both when unadjusted and after controlling for infant size, age, sex, and passive exposure to environmental tobacco smoke (ETS) between birth and the time of PF testing. Flow at functional residual capacity (VFRC) in infants born to smoking mothers was lower than that found in infants whose mothers did not smoke during pregnancy (74.3 +/- 15.9 versus 150.4 +/- 8.9 ml/s; p = 0.0007). Differences remained significant when flow was corrected for lung size (VFRC/FRC: 0.87 +/- 0.26 versus 1.77 +/- 0.12 s-1; p = 0.013). No differences in pulmonary function were evident among infants exposed and unexposed to ETS in the home after stratifying by prenatal exposure status. We conclude that maternal smoking during pregnancy is associated with significant reductions in forced expiratory flow rates in young infants. The results suggest that maternal smoking during pregnancy may impair in utero airway development and/or alter lung elastic properties. We speculate that these effects of maternal prenatal smoking on early levels of forced expiratory flow may be an important factor predisposing infants to the occurrence of wheezing illness later in childhood.

[1]  S. Stick,et al.  The influence of a family history of asthma and parental smoking on airway responsiveness in early infancy. , 1991, The New England journal of medicine.

[2]  W. Morgan,et al.  Diminished lung function as a predisposing factor for wheezing respiratory illness in infants. , 1988, The New England journal of medicine.

[3]  A. Murray,et al.  Passive smoking and the seasonal difference of severity of asthma in children. , 1988, Chest.

[4]  M. Lebowitz,et al.  Effects of parental smoking and other risk factors on the development of pulmonary function in children and adolescents. Analysis of two longitudinal population studies. , 1988, American journal of epidemiology.

[5]  Y. Chen,et al.  The effect of passive smoking on children's pulmonary function in Shanghai. , 1986, American journal of public health.

[6]  A. Murray,et al.  The effect of cigarette smoke from the mother on bronchial responsiveness and severity of symptoms in children with asthma. , 1986, The Journal of allergy and clinical immunology.

[7]  D. Dockery,et al.  Indoor air pollution and pulmonary function growth in preadolescent children. , 1986, American journal of epidemiology.

[8]  F. Speizer,et al.  Longitudinal study of the effects of maternal smoking on pulmonary function in children. , 1983, The New England journal of medicine.

[9]  W. Pierson,et al.  Risk factors for persistent middle-ear effusions. Otitis media, catarrh, cigarette smoke exposure, and atopy. , 1983, JAMA.

[10]  S. Godfrey,et al.  Determinants of forced expiratory flows in newborn infants. , 1982, Journal of applied physiology: respiratory, environmental and exercise physiology.

[11]  F. Speizer,et al.  Persistent wheeze. Its relation to respiratory illness, cigarette smoking, and level of pulmonary function in a population sample of children. , 1980, The American review of respiratory disease.

[12]  A. S. St Leger,et al.  Respiratory illness, maternal smoking habit and lung function in children. , 1979, British journal of diseases of the chest.

[13]  C. Jermini,et al.  Irritating effects on man of air pollution due to cigarette smoke. , 1976, American journal of public health.

[14]  R. Pugh The paediatric casuality. , 1970, Lancet.