[Environmental tobacco smoke exposure in children and its relationship with the severity of asthma]. / Exposición al humo de tabaco del niño asmático y su asociación con la gravedad del asma.

INTRODUCTION: Environmental tobacco smoke (ETS) exposure produces serious respiratory problems in childhood. The aim of the study was to evaluate if environmental tobacco smoke affects the severity of asthma in asthmatic children. MATERIAL AND METHODS: A prospective, multicentre study was conducted on asthmatic children and their parents in 2007-2008, using an exposure questionnaire, pulmonary function, level of cotinine in urine, and evaluation of the severity of asthma according to GEMA guide. The characteristics of the sample are summarised using the appropriate statistical tools, and the comparisons were made using the Pearson chi2 test, Mann-Whitney U test or Studentis t, according to the variable and number of groups compared. RESULTS: Four hundred and eighty four households in 7 Autonomous Communities were included. The population included, 61% male children with asthma, 56% with a smoking caregiver in their home, 34% fathers, 31% mothers and 17% both. Home exposure was 37%, with 11% daily and 94% passive smokers since birth. There was 20% with exposure during whole period of pregnancy of 5±1 cigarettes/day. Children exposed to 6±1 cigarettes/day, 27%, up to 10 cigarettes/day, and 10% to more than 10. Severity of asthma during the survey was worse among those exposed (episodic-occasional 47%, episodic-frequent 35% and persistent-moderate 18% versus 59%, 25% and 16%, respectively, P=.040). Severity of asthma in the last year was worse in those exposed (episodic - occasional 22%, episodic - frequent 37% and persistent - moderate 50% versus 38%, 28% and 25% respectively, P=.037). The spirometry was abnormal in 64% of the exposed against to 36% in the non-exposed for FEV(1) (P=.003, 63% vs 38% for FVC (P=.038), and 54% vs 46% for the PEF (P=.050). The cotinine was higher in exposed: 51 (0-524) ng/ml vs 27 (0-116) ng/ml (P=.032). A relationship was observed between cotinine and level of exposure: 120 (0-590) ng/ml for >10 cigarettes/day as opposed to 44 (0-103) ng/ml ≤10 cigarettes/day (P=.035), which corroborates the consistency of the data collected. CONCLUSIONS: The exposure of children with asthma to environmental tobacco smoke has a highly negative effect on the severity of their asthma.

[Lung function and exposure to tobacco smoke among adolescents]. / Función pulmonar y exposición al humo del tabaco en adolescentes.

OBJECTIVE: To study lung function in adolescents in relation to smoking (active and passive smokers) and to investigate the repercussion on spirometric parameters. PATIENTS AND METHOD: We studied 301 healthy adolescents with no history of bronchial asthma or colds in the month prior to the study. A questionnaire on tobacco exposure was administered and spirometry (Datospir-92) was performed. RESULTS: There were 165 boys (54.5%) and 136 girls (45.5%) aged between 14 and 20 years old (16.40+/-1.32). A total of 27.2% were non-smokers and were not exposed to tobacco smoke (NS), 31.3% were passive smokers, with household exposure of 10 cigarettes per day during at least the previous year (PS), and 41.5% were current smokers who had been smoking>or=10 cigarettes/day for at least 1 year (CS). Significant differences were found between age and smoking habits (p=0.0001) and between smoking habits and female sex (girls CS: 33.9% vs boys CS: 21.8 %) (p=0.007). A significant association was found between smoking (NS, PS and CS) and spirometric parameters (ANOVA): forced vital capacity (FVC) (p=0.001), forced expiratory volume in 1 second (FEV1) (p=0.0001), FEV1/FVC (p=0.004), peak expiratory flow (PEF) (p=0.0001), midexpiratory flow at 25% of forced vital capacity (MEF25%) (p=0.01), MEF50% (p=0.0001) and MEF25-75% (p=0.0001); CS in relation to NS was as follows: FEV1, PEF, MEF50%, MEF25-50% (p=0.0001) and FVC, FEV1/FVC, MEF25% (p=0.01); CS in relation to PS: FEV1/ FVC (p=0.02), PEF (p=0.004), MEF50% and MEF25-75% (p=0.003), PS in relation to NS: FVC and FEV1 (p=0.02). Significant differences in FVC, FEV1 and MEF25-75% were found in female CS in comparison with boys. CONCLUSIONS: The CS group showed a significant decrease in spirometric parameters in relation to the NS group. The airway was affected sooner in the female group of smokers than in the male group, even though the intensity and time of exposure were the same in both groups.

[Respiratory disease in young people and smoking]. / Patología respiratoria en los jóvenes y hábito tabáquico.

OBJECTIVE: To assess the prevalence of respiratory disease among adolescents and young adults and to determine whether disease is more common among smokers. POPULATION AND METHOD: Four hundred twenty subjects (45.3% female and 54.7% male) between 14 and 21 years of age were studied. The subjects were enrolled in public and private schools in Tenerife (Spain). Each subject filled in an epidemiological questionnaire as recommended by the American Thoracic Society (ATS). RESULTS: We found that 26.5% were habitual smokers, 11.0% were occasional smokers, 3.6% were ex-smokers and 45.6% were passive smokers. Only 13.4% reported not being exposed to tobacco smoke. Respiratory diseases included recurrent upper respiratory tract infections (14.1%), lower respiratory tract infections (16%), allergy (32.5%) and asthma (10.5%), bronchospasm with exercise (25.8%) and chronic coughing (8.6%). The incidences of the following diseases were higher in young smokers: upper respiratory tract infections (p = 0.001), lower respiratory tract infections (p = 0.004), bronchospasm with exercise (p = 0.02) and chronic cough (p = 0.0001). Young smokers also lost more school days per year due to respiratory disease (p = 0.01). The rate of lower respiratory tract infections per year was higher among young smokers than among those who were unexposed (p = 0.004). CONCLUSION: Smoking, which leads to a higher incidence of respiratory disease, has a negative impact on adolescents.

[Exposure to tobacco and cotinine levels in children]. / Exposición al tabaco y niveles de cotinina en el niño.

OBJECTIVE: To evaluate the exposure of children and their parents to cigarette smoke by measuring cotinine levels in saliva. PATIENTS: A total of 151 children (84 males and 67 females) aged 15 days to 17 years from hospital and extrahospital practices. METHOD: Questionnaire on exposure to cigarette smoke from their parents, saliva cotinine levels by radioimmunoassay. RESULTS: Cotinine levels were higher in the passive smoker child than in the non-exposed child (p = 0.0001). A significant correlation was found between cotinine in the child and: a) total number of cigarettes smoked daily by both parents (p = 0.01); b) number of cigarettes smoked daily at home (p = 0.002), and c) number of cigarettes smoked at home in the 24 hours prior to sample obtention (p = 0.002). Higher levels of cotinine in the smoker parents than in the non-smoker parents were found (0.0001). CONCLUSIONS: The passive smoker child has high cotinine levels in saliva which are directly related to the exposure degree.