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gap (version 1.1-16)

hwe.cc: A likelihood ratio test of population Hardy-Weinberg equilibrium for case-control studies

Description

A likelihood ratio test of population Hardy-Weinberg equilibrium for case-control studies

Usage

hwe.cc(model, case, ctrl, k0, initial1, initial2)

Arguments

model
model specification, dominant, recessive
case
a vector of genotype counts in cases
ctrl
a vector of genotype counts in controls
k0
prevalence of disease in the population
initial1
initial values for beta, gamma, and q
initial2
initial values for logit(p) and log(gamma)

Value

The returned value is a list with the following components.
Cox
statistics under a general model
t2par
under the null hypothesis
t3par
under the alternative hypothesis
lrt.stat
the log-likelihood ratio statistic
pval
the corresponding p value

References

Yu C, Zhang S, Zhou C, Sile S. A likelihood ratio test of population Hardy-Weinberg equilibrium for case-control studies. Genetic Epidemiology 33:275-280, 2009

Details

This is a collection of utility functions. The null hypothesis declares that the proportions of genotypes are according to Hardy-Weinberg law, while under the alternative hypothesis, the expected genotype counts are according to the probabilities that particular genotypes are obtained conditional on the prevalence of disease in the population. In so doing, Hardy-Weinberg equilibrium is considered using both case and control samples but pending on the disease model such that 2-parameter multiplicative model is built on baseline genotype $alpha$, $alpha beta$ and $alpha gamma$.

See Also

hwe

Examples

Run this code
## Not run: 
# 
# ### Saba Sile, email of Jan 26, 2007, data always in order of GG AG AA, p=Pr(G),
# ### q=1-p=Pr(A)
# case=c(155,27,4)
# ctrl=c(408,55,15)
# k0=.2
# initial1=c(1.0,0.94,0.0904)
# initial2=c(logit(1-0.0904),log(0.94))
# hwe.cc("recessive",case,ctrl,k0, initial1, initial2)
# 
# ### John Phillips III, TGFb1 data codon 10: TT CT CC, CC is abnormal and increasing
# ### TGFb1 activity
# case=c(29,78,13)
# ctrl=c(17,28,6)
# k0 <- 1e-5
# initial1 <- c(2.45,2.45,0.34)
# initial2 <- c(logit(1-0.34),log(2.45))
# hwe.cc("dominant",case,ctrl,k0,initial1,initial2)
# ## End(Not run)

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