TY - JOUR
T1 - Genes for asthma? An analysis of the European Community Respiratory Health Survey
AU - Burney, P.
AU - Chinn, S.
AU - Luczynska, C.
AU - Jarvis, D.
AU - Vermeire, P.
AU - Bousquet, J.
AU - Nowak, D.
AU - Prichard, J.
AU - De Marco, R.
AU - Rijcken, B.
AU - Anto, J.
AU - Alves, J.
AU - Boman, G.
AU - Nielsen, N.
AU - Paoletti, P.
AU - Kesteloot, H.
AU - Ait-Khaled, N.
AU - Popp, W.
AU - Abramson, M.
AU - Kutin, J.
AU - Van Bastelaer, F.
AU - Dahl, R.
AU - Iversen, M.
AU - Jögi, R.
AU - Neukirch, F.
AU - Liard, R.
AU - Pin, I.
AU - Pison, C.
AU - Taytard, A.
AU - Teculescu, D.
AU - Magnussen, H.
AU - Heinrich, J.
AU - Wichmann, H. E.
AU - Papageorgiou, N.
AU - Avarlis, P.
AU - Gaga, M.
AU - Marossis, C.
AU - Gislason, T.
AU - Gislason, D.
AU - Chowgule, R.
AU - Allwright, S.
AU - MacLeod, D.
AU - Bugiani, M.
AU - Bucca, C.
AU - Romano, C.
AU - De Marco, R.
AU - Lo Cascio, V.
AU - Campello, C.
AU - Marinoni, A.
AU - Cerveri, I.
AU - Casali, L.
AU - Kremer, A.
AU - Crane, J.
AU - Lewis, S.
AU - Gulsvik, A.
AU - Omenaas, E.
AU - Avila, R.
AU - Amaral Marques, R.
AU - Loureiro, C.
AU - Chieira, C.
AU - Cordeiro, R.
AU - Marques, J. A.
AU - Castellasague, J.
AU - Sunyer, J.
AU - Soriano, J.
AU - Galobardes, M.
AU - Roca, J.
AU - Muniozguren, N.
AU - Ramos González, J.
AU - Capelastegui, A.
AU - Castillo, J.
AU - Rodriguez Portal, J.
AU - Martinez-Moratalla Rovira, J.
AU - Almar, E.
AU - Maldonado Pérez, J.
AU - Sánchez, J.
AU - Quiros, J.
AU - Huerta, I.
AU - Janson, C.
AU - Björnsson, E.
AU - Rosenhall, L.
AU - Norrman, E.
AU - Lundbäck, B.
AU - Lindholm, N.
AU - Plaschke, P.
AU - Ackermann-Liebrich, U.
AU - Künzli, N.
AU - Perruchoud, A.
AU - Burr, M.
AU - Layzell, J.
AU - Hall, R.
AU - Harrison, B.
AU - Stark, J.
AU - Florey, C.
AU - Da Costa Pereira, A.
AU - Wjst, Matthias
AU - European Community Respiratory Health Survey Group
PY - 1997/12
Y1 - 1997/12
N2 - Besides environmental triggers, a family history of asthma is a strong risk factor for the development of asthma in offspring. The pooled data from 13,963 interviews of randomly selected, 20 to 48 yr-old participants from the 30 centers of the European Community Respiratory Health Survey (ECRHS) were analyzed with conventional logistic regression and a Class A regressive model adapted for the segregation of various transmission modes in families. The asthma prevalence in the interviewed index generation was 6.9% (95% confidence interval [CI]: 6.5 to 7.3), and in the parent generation was 6.1% (5.8 to 6.4). As with asthma prevalence, the risk of a subject having asthma if a parent had asthma also had a large geographic variation across the survey centers. The mean risk if a father had asthma was 2.9 (2.4 to 3.5), and if the mother had asthma was 3.2 (2.6 to 3.9). The risk increased to 7.0 (3.9 to 12.7) if both parents were affected. For developing extrinsic asthma, extrinsic asthma in any parent was a greater risk factor (4.9 [3.9 to 6.0]) than intrinsic asthma of the parent (1.5 [0.8 to 2.6]), and the risk for women was slightly higher than that for men (4.3 [3.3 to 5.5] versus 3.6 [2.6 to 5.0]). Applying different segregation models, only a model for a two- allele gene with a codominant inheritance could not be rejected, assuming a major gene with a population frequency of 24.2%. Further results make a multilocus/threshold model likely. In conclusion, a history of asthma in parents is a strong risk factor for asthma in the offspring. Under the assumptions of the applied segregation analysis, at least one major gene exists which could be a gene involved also in allergy. However, asthma is not fully described by a single-gene model. The risk for asthma varies within the European countries, and should be seen in the context of a complex genetic and environmental pathophysiology.
AB - Besides environmental triggers, a family history of asthma is a strong risk factor for the development of asthma in offspring. The pooled data from 13,963 interviews of randomly selected, 20 to 48 yr-old participants from the 30 centers of the European Community Respiratory Health Survey (ECRHS) were analyzed with conventional logistic regression and a Class A regressive model adapted for the segregation of various transmission modes in families. The asthma prevalence in the interviewed index generation was 6.9% (95% confidence interval [CI]: 6.5 to 7.3), and in the parent generation was 6.1% (5.8 to 6.4). As with asthma prevalence, the risk of a subject having asthma if a parent had asthma also had a large geographic variation across the survey centers. The mean risk if a father had asthma was 2.9 (2.4 to 3.5), and if the mother had asthma was 3.2 (2.6 to 3.9). The risk increased to 7.0 (3.9 to 12.7) if both parents were affected. For developing extrinsic asthma, extrinsic asthma in any parent was a greater risk factor (4.9 [3.9 to 6.0]) than intrinsic asthma of the parent (1.5 [0.8 to 2.6]), and the risk for women was slightly higher than that for men (4.3 [3.3 to 5.5] versus 3.6 [2.6 to 5.0]). Applying different segregation models, only a model for a two- allele gene with a codominant inheritance could not be rejected, assuming a major gene with a population frequency of 24.2%. Further results make a multilocus/threshold model likely. In conclusion, a history of asthma in parents is a strong risk factor for asthma in the offspring. Under the assumptions of the applied segregation analysis, at least one major gene exists which could be a gene involved also in allergy. However, asthma is not fully described by a single-gene model. The risk for asthma varies within the European countries, and should be seen in the context of a complex genetic and environmental pathophysiology.
UR - http://www.scopus.com/inward/record.url?scp=0007522448&partnerID=8YFLogxK
U2 - 10.1164/ajrccm.156.6.9611068
DO - 10.1164/ajrccm.156.6.9611068
M3 - Article
C2 - 9412554
AN - SCOPUS:0007522448
SN - 1073-449X
VL - 156
SP - 1773
EP - 1780
JO - American Journal of Respiratory and Critical Care Medicine
JF - American Journal of Respiratory and Critical Care Medicine
IS - 6
ER -