mlreg: Linear and logistic regression and Cox models for genome-wide...
In GenABEL: genome-wide SNP association analysis
Description
Usage
Arguments
Details
Value
Author(s)
See Also
Examples
Description
Linear and logistic regression and Cox models for genome-wide SNP data
Usage
1
Arguments
formula
Standard formula object
data
an object of gwaa.data-class
gtmode
Either "additive", "dominant", "recessive" or "overdominant". Specifies the
analysis model.
trait.type
Either "gaussian", "binomial" or "survival", corresponding to
analysis using linear regression, logistic regression, and Cox proportional
hazards models, respectively. When default vale "guess" is used, the
program tries to guess the type
propPs
proportion of non-corrected P-values used to estimate the inflation factor Lambda,
passed directly to the estlambda
Details
Linear regression is performed using standard approach; logisitc regression
is implemented using IRLS; Cox model makes use of code contributed by
Thomas Lumley (survival package).
For logistic and Cox, exp(effB) gives Odds Ratios and Hazard Ratios, respectively.
Value
An object of scan.gwaa-class
Author(s)
Yurii Aulchenko
See Also
Examples
1
2
3
4
5
6
7
8
9
10
require(GenABEL.data)
data(ge03d2)
dta <- ge03d2[,1:100]
# analysis using linear model
xq <- mlreg(bmi~sex,dta)
# logistic regression, type guessed automatically
xb <- mlreg(dm2~sex,dta)
# Cox proportional hazards model, assuming that age is the follow-up time
# generally this does not make sense (could be ok if age is age at onset)
xs <- mlreg(GASurv(age,dm2)~sex,dta)
GenABEL documentation built on May 30, 2017, 3:36 a.m.
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Description Usage Arguments Details Value Author(s) See Also Examples
Description
Linear and logistic regression and Cox models for genome-wide SNP data
Usage
1 |
Arguments
formula |
Standard formula object |
data |
an object of |
gtmode |
Either "additive", "dominant", "recessive" or "overdominant". Specifies the analysis model. |
trait.type |
Either "gaussian", "binomial" or "survival", corresponding to analysis using linear regression, logistic regression, and Cox proportional hazards models, respectively. When default vale "guess" is used, the program tries to guess the type |
propPs |
proportion of non-corrected P-values used to estimate the inflation factor Lambda,
passed directly to the |
Details
Linear regression is performed using standard approach; logisitc regression is implemented using IRLS; Cox model makes use of code contributed by Thomas Lumley (survival package).
For logistic and Cox, exp(effB) gives Odds Ratios and Hazard Ratios, respectively.
Value
An object of scan.gwaa-class
Author(s)
Yurii Aulchenko
See Also
Examples
1 2 3 4 5 6 7 8 9 10 | require(GenABEL.data)
data(ge03d2)
dta <- ge03d2[,1:100]
# analysis using linear model
xq <- mlreg(bmi~sex,dta)
# logistic regression, type guessed automatically
xb <- mlreg(dm2~sex,dta)
# Cox proportional hazards model, assuming that age is the follow-up time
# generally this does not make sense (could be ok if age is age at onset)
xs <- mlreg(GASurv(age,dm2)~sex,dta)
|
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