Power and robustness of linkage tests for quantitative traits in general pedigrees

proposed a regression-based TDT method for quantitative traits consisting of regressing the trait on the parental transmission of a marker allele. Zhu and Elston [2000] also developed a TDT method for quantitative traits by defining a linear transformation to condition out founder information. Both

## Abstract Allison ([1997] Am. J. Hum. Genet. 60:676–690) proposed four versions of the transmission‐disequilibrium test (TDT) for quantitative traits when there is __extreme‐threshold sampling__, i.e., the trios having an offspring trait value between a priori defined thresholds are excluded from

## Abstract Many complex human diseases such as alcoholism and cancer are rated on ordinal scales. Well‐developed statistical methods for the genetic mapping of quantitative traits may not be appropriate for ordinal traits. We propose a class of variance‐component models for the joint linkage and a

## Abstract Identification of genes involved in complex traits by traditional (lod score) linkage analysis is difficult due to many complicating factors. An unfortunate drawback of non‐parametric procedures in general, though, is their low power to detect genetic effects. Recently, Dudoit and Speed

## Abstract Association mapping based on family studies can identify genes that influence complex human traits while providing protection against population stratification. Because no gene is likely to have a very large effect on a complex trait, most family studies have limited power. Among the co

Goals of this analysis were to map loci contributing to variation in the quantitative trait, Q1, using the lod-score method on data set 1, and to explore the difference in power to map genes when considering the discrete vs. quantitative phenotype. Segregation analyses, after covariate adjustment, c