Robust Methods for Disease-Genotype Association in Genetic Association Studies: Calculate P-values Using Exact Conditional Enumeration instead of Asymptotic Approximations

Autor: Langaas, Mette, Bakke, ��yvind
Rok vydání: 2013
Předmět:
DOI: 10.48550/arxiv.1307.7536
Popis: In genetic association studies, detecting disease-genotype associations is a primary goal. For most diseases, the underlying genetic model is unknown, and we study seven robust test statistics for monotone association. For a given test statistic, there are many ways to calculate a p-value, but in genetic association studies, calculations have predominantly been based on asymptotic approximations or on simulated permutations. We show that when the number of permutations tends to infinity, the permutation p-value approaches the exact conditional enumeration p-value, and further that calculating the latter p-value is much more efficient than performing simulated permutations. We then answer two research questions. (i) Which of the test statistics under study are the most powerful for monotone genetic models? (ii) Based on test size, power, and computational considerations, should asymptotic approximations or exact conditional enumeration be used for calculating p-values? We have studied case-control sample sizes with 500-5000 cases and 500-15000 controls, and significance levels from 5e-8 to 0.05, thus our results are applicable to genetic association studies with only one genetic marker under study, intermediate follow-up studies, and genome wide association studies. We find that if all monotone genetic models are of interest, the best performance is achieved for a test statistics based on the maximum over a range of Cochrane-Armitage trend tests with different scores and for a constrained likelihood ratio test. For significance levels below 0.05, asymptotic approximations may give a test size up to 20 times the nominal level, and should therefore be used with caution. Further, calculating p-values based on exact conditional enumeration is a powerful, valid and computationally feasible approach, and we advocate its use in genetic association studies.
Databáze: OpenAIRE