For genetic association studies with multiple phenotypes, we propose a new strategy for multiple testing with family-based association tests (FBATs). The strategy increases the power by both using all available family data and reducing the number of hypotheses tested while being robust against population admixture and stratification. By use of conditional power calculations, the approach screens all possible null hypotheses without biasing the nominal significance level, and it identifies the subset of phenotypes that has optimal power when tested for association by either univariate or multivariate FBATs. An application of our strategy to an asthma study shows the practical relevance of the proposed methodology. In simulation studies, we c...
In this paper we propose a multivariate extension of family-based association tests based on general...
Family-based association designs are popular, because they offer inherent control of population stra...
Association mapping based on family studies can identify genes that influence complex human traits w...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
We introduce a new powerful nonparametric testing strategy for family-based association studies in w...
In the present article, we address family-based association tests (FBATs) for quantitative traits. W...
For genome-wide association studies in family-based designs, we propose a new, universally applicabl...
We propose a family-based association test, FBAT-PC, for studies with quantitative traits that are m...
© The Author(s) 2015. This article is published with open access at Springerlink.com Abstract The mu...
Assumptions regarding the true underlying genetic model, or mode of inheritance, are necessary when ...
Recently, Steen et al proposed a two-stage approach for genome-wide family-based association studies...
Using large-sample theory, we present a unified approach to power calculations for family-based asso...
A test statistic that is valid for data collected according to a particular type of family study des...
Association studies test for genetic variation influencing disease risk. We explore here the applica...
In this paper we propose a multivariate extension of family-based association tests based on general...
Family-based association designs are popular, because they offer inherent control of population stra...
Association mapping based on family studies can identify genes that influence complex human traits w...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
We introduce a new powerful nonparametric testing strategy for family-based association studies in w...
In the present article, we address family-based association tests (FBATs) for quantitative traits. W...
For genome-wide association studies in family-based designs, we propose a new, universally applicabl...
We propose a family-based association test, FBAT-PC, for studies with quantitative traits that are m...
© The Author(s) 2015. This article is published with open access at Springerlink.com Abstract The mu...
Assumptions regarding the true underlying genetic model, or mode of inheritance, are necessary when ...
Recently, Steen et al proposed a two-stage approach for genome-wide family-based association studies...
Using large-sample theory, we present a unified approach to power calculations for family-based asso...
A test statistic that is valid for data collected according to a particular type of family study des...
Association studies test for genetic variation influencing disease risk. We explore here the applica...
In this paper we propose a multivariate extension of family-based association tests based on general...
Family-based association designs are popular, because they offer inherent control of population stra...
Association mapping based on family studies can identify genes that influence complex human traits w...