UNLABELLED: IMPORTANCE This is the first study to link reduced lung function in early life, before the development of symptoms, to wheeze in 18-year-olds. Additionally, the study gives insight into factors other than reduced lung function that are also associated with persistent wheeze in young adults. OBJECTIVE: To test the hypothesis that reduced lung function in early life is associated with increased risk for persistent wheeze at age 18 years. DESIGN: Birth cohort study. SETTING: Perth, Western Australia. PARTICIPANTS: Individuals followed up from age 1 month to 18 years. MAIN OUTCOME MEASURES: Maximal flow at functional residual capacity (V'maxFRC) was measured in 1-month-old infants who were followed up at ages 6, 12, and 18 years. Based on reported symptoms, individuals were categorized as having remittent wheeze, later-onset wheeze, persistent wheeze, and no wheeze. Smoking status was noted at age 18 years. RESULTS: Of the 253 individuals originally recruited, 150 were followed up at age 18 years; 37 of the 150 had recent wheeze. Compared with the no-wheeze group (n = 96), persistent wheeze (n = 13) was independently associated with reduced percentage of predicted V'maxFRC (mean reduction, 43%; 95% CI, 13-74). Compared with the no-wheeze group, persistent wheeze was also associated with atopy in infancy (odds ratio = 7.1; 95% CI, 1.5-34.5), maternal asthma (odds ratio = 6.8; 95% CI, 1.4-32.3), and active smoking (odds ratio = 4.8; 95% CI, 1.0-21.3). When only wheeze at age 18 years was considered, reduced percentage of predicted V'maxFRC was associated with wheeze at age 18 years only among current smokers (P = .04). CONCLUSIONS AND RELEVANCE: Wheeze persisting from ages 6 to 18 years is associated with multiple factors, including reduced infant lung function, infant-onset atopy, maternal asthma, and active smoking. Wheeze at age 18 years (regardless of previous wheeze status) is associated with active smoking, but only among those with reduced lung function in infancy. These findings give unique insight into the cause of obstructive airways disease in 18-year-olds, and follow-up of this cohort might be expected to further extend our understanding.
UNLABELLED: IMPORTANCE This is the first study to link reduced lung function in early life, before the development of symptoms, to wheeze in 18-year-olds. Additionally, the study gives insight into factors other than reduced lung function that are also associated with persistent wheeze in young adults. OBJECTIVE: To test the hypothesis that reduced lung function in early life is associated with increased risk for persistent wheeze at age 18 years. DESIGN: Birth cohort study. SETTING: Perth, Western Australia. PARTICIPANTS: Individuals followed up from age 1 month to 18 years. MAIN OUTCOME MEASURES: Maximal flow at functional residual capacity (V'maxFRC) was measured in 1-month-old infants who were followed up at ages 6, 12, and 18 years. Based on reported symptoms, individuals were categorized as having remittent wheeze, later-onset wheeze, persistent wheeze, and no wheeze. Smoking status was noted at age 18 years. RESULTS: Of the 253 individuals originally recruited, 150 were followed up at age 18 years; 37 of the 150 had recent wheeze. Compared with the no-wheeze group (n = 96), persistent wheeze (n = 13) was independently associated with reduced percentage of predicted V'maxFRC (mean reduction, 43%; 95% CI, 13-74). Compared with the no-wheeze group, persistent wheeze was also associated with atopy in infancy (odds ratio = 7.1; 95% CI, 1.5-34.5), maternal asthma (odds ratio = 6.8; 95% CI, 1.4-32.3), and active smoking (odds ratio = 4.8; 95% CI, 1.0-21.3). When only wheeze at age 18 years was considered, reduced percentage of predicted V'maxFRC was associated with wheeze at age 18 years only among current smokers (P = .04). CONCLUSIONS AND RELEVANCE: Wheeze persisting from ages 6 to 18 years is associated with multiple factors, including reduced infant lung function, infant-onset atopy, maternal asthma, and active smoking. Wheeze at age 18 years (regardless of previous wheeze status) is associated with active smoking, but only among those with reduced lung function in infancy. These findings give unique insight into the cause of obstructive airways disease in 18-year-olds, and follow-up of this cohort might be expected to further extend our understanding.
Authors: Nara Tagiyeva; Graham Devereux; Shona Fielding; Stephen Turner; Graham Douglas Journal: Am J Respir Crit Care Med Date: 2016-01-01 Impact factor: 21.405
Authors: Johnny Y C Chan; Debra A Stern; Stefano Guerra; Anne L Wright; Wayne J Morgan; Fernando D Martinez Journal: Pediatrics Date: 2015-03-02 Impact factor: 7.124
Authors: Catherine L Callahan; Manal Al-Batanony; Ahmed A Ismail; Gaafar Abdel-Rasoul; Olfat Hendy; James R Olson; Diane S Rohlman; Matthew R Bonner Journal: Int J Environ Res Public Health Date: 2014-12-16 Impact factor: 3.390
Authors: Jesse D Thacher; Erica S Schultz; Jenny Hallberg; Ulrika Hellberg; Inger Kull; Per Thunqvist; Göran Pershagen; Per M Gustafsson; Erik Melén; Anna Bergström Journal: Eur Respir J Date: 2018-06-07 Impact factor: 16.671