S35 Different Early Life Factors Are Important in the Development of Atopic and Non-Atopic Asthma
- E Petley1,
- KC Pike2,
- HM Inskip3,
- KM Godfrey4,
- JSA Lucas2,
- G Roberts4 Southampton Women’s Survey Study Group3
- 1Clinical and Experimental Sciences, University of Southampton Faculty of Medicine, Southampton, UK
- 2NIHR Southampton Respiratory Biomedical Research Unit, Southampton University Hospitals Trust, Southampton, UK
- 3Southampton Medical Research Council Lifecourse Epidemiology Unit, University of Southampton, Southampton, UK
- 4Human DevelopmentHealth, University of Southampton Faculty of Medicine, Southampton, UK
Background Many factors have been related to the development of childhood asthma but there is inconsistency between studies.
Objective To understand how early life factors are linked to the development of the various asthma phenotypes at age 6 years in the Southampton Women’s Survey (SWS) children’s cohort.
Methods Data was collected from 940 children and their parents, primarily through questionnaires during pregnancy and at 6m, 1, 3 and 6 years. Prevalent asthma was defined by a doctor’s diagnosis and a wheezing episode in the last year. Data was analysed using STATA v9. A relative risk analysis using a univariate approach was undertaken, followed by a multivariate analysis.
Results Both maternal (RR=1.61, p=0.041) and paternal (RR=2.05, p=0.002) atopic disease increased the risk of asthma at age 6 years. The risk increased with atopy, defined as a positive skin prick test, at 3 years (RR=3.05, p<0.001) and with wheeze in the first 3 years (RR=8.79, p<0.001). Episodes of bronchiolitis and chest infections were associated, in a dose-dependent manner, with the risk of asthma (RR=1.50, p=0.022). Predictors in the multivariate model were wheeze in the first 3 years (RR=10.74, p<0.001), atopy (RR=2.87, p<0.001) and maternal atopy (RR=2.22, p=0.011).When asthma at age 6 years was split into atopic and non-atopic asthma, the predictors were very different. Atopic asthma was associated with paternal atopy (RR=4.13, p=0.002), male sex (RR=2.56, p=0.030), atopy at 3 years (RR=10.31, p<0.001) and wheeze in the first 3 years (RR=5.91, p=0.004). In the multivariate analysis, the following were predictive: wheeze in the first 3 years (RR=13.55, p=0.012), atopy at 3 years (RR=10.13,<0.001), paternal atopy (RR=2.97, p=0.017) and a 12 month infant dietary pattern that follows current guidelines (RR=1.79, p=0.016). For non-atopic asthma, bronchiolitis or chest infections (RR=1.76, p=0.047), wheeze in the first 3 years (RR=20.69, p=0.003) and tobacco smoke exposure at 6 years (RR=2.16, p=0.035) increased the risk. Only wheeze in the first 3 years remained in the multivariate model.
Conclusions Different hereditary and early life factors modify the risk of atopic and non-atopic asthma at 6 years of age. This suggests that these two asthma phenotypes have different pathophysiologies.