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frailtySurv

frailtySurv is an R package for simulating and fitting semiparametric shared frailty models.

Installation

For the latest stable version, install from CRAN:

install.packages("frailtySurv")

The development version can be installed from github using devtools.

devtools::install_github("vmonaco/frailtySurv")

Example

The following code shows how to generate data and fit the model.

set.seed(1234)
library(frailtySurv)
#> Loading required package: survival
#> Welcome to frailtySurv v1.3.3
dat <- genfrail(N=200, K=2, beta=c(log(2),log(3)), 
                frailty="gamma", theta=2,
                censor.rate=0.35,
                Lambda_0=function(t, tau=4.6, C=0.01) (C*t)^tau)

fit <- fitfrail(Surv(time, status) ~ Z1 + Z2 + cluster(family), 
                dat=dat, frailty="gamma")
fit
#> Call: fitfrail(formula = Surv(time, status) ~ Z1 + Z2 + cluster(family), 
#>     dat = dat, frailty = "gamma")
#> 
#>      Covariate     Coefficient
#>             Z1           0.654
#>             Z2           1.006
#> 
#> Frailty distribution   gamma(1.802), VAR of frailty variates = 1.802
#> Log-likelihood         -1575.752
#> Converged (method)     10 iterations, 3.24 secs (maximized log-likelihood)

Parameter traces are given by

plot(fit, type="trace")

The estimated cumulative baseline hazard is given by

plot(fit, type="cumhaz")

The results can be compared to other estimation techniques.

library(survival)
library(frailtypack)
coxph(Surv(time, status) ~ Z1 + Z2 + frailty.gamma(family), data=dat)
#> Call:
#> coxph(formula = Surv(time, status) ~ Z1 + Z2 + frailty.gamma(family), 
#>     data = dat)
#> 
#>                           coef se(coef)      se2    Chisq  DF       p
#> Z1                      0.6651   0.0941   0.0852  49.9190   1 1.6e-12
#> Z2                      1.0282   0.1046   0.0941  96.5685   1 < 2e-16
#> frailty.gamma(family)                            475.6283 150 < 2e-16
#> 
#> Iterations: 7 outer, 58 Newton-Raphson
#>      Variance of random effect= 1.88   I-likelihood = -1319.6 
#> Degrees of freedom for terms=   0.8   0.8 149.7 
#> Likelihood ratio test=576  on 151 df, p=<2e-16  n= 400
frailtyPenal(Surv(time, status) ~ Z1 + Z2 + cluster(family), data=dat, n.knots=10, kappa=2)
#> 
#> Be patient. The program is computing ... 
#> The program took 0.22 seconds
#> Call:
#> frailtyPenal(formula = Surv(time, status) ~ Z1 + Z2 + cluster(family), 
#>     data = dat, n.knots = 10, kappa = 2)
#> 
#> 
#>   Shared Gamma Frailty model parameter estimates  
#>   using a Penalized Likelihood on the hazard function 
#> 
#>       coef exp(coef) SE coef (H) SE coef (HIH)       z          p
#> Z1 0.67236   1.95885   0.0994732     0.0994732 6.75921 1.3875e-11
#> Z2 1.04884   2.85433   0.1191210     0.1191210 8.80481 0.0000e+00
#> 
#>     Frailty parameter, Theta: 1.92378 (SE (H): 0.319435 ) p = 8.5895e-10 
#>  
#>       penalized marginal log-likelihood = -1378.15
#>       Convergence criteria: 
#>       parameters = 0.000362 likelihood = 0.000201 gradient = 2.44e-08 
#> 
#>       LCV = the approximate likelihood cross-validation criterion
#>             in the semi parametrical case     = 3.48287 
#> 
#>       n= 400
#>       n events= 256  n groups= 200
#>       number of iterations:  13 
#> 
#>       Exact number of knots used:  10 
#>       Value of the smoothing parameter:  2, DoF:  11.96

Clone and build

You can clone the repository and build the project from source using RStudio. To create a project in RStudio from this repository, you must have both RStudio and git installed.

See the R packages book

Build everything

To load the package (simulate installing and loading with library(frailty)):

devtools::load_all()

or shortuct: Ctrl+Shift+L

Use this command to build a source package (binary = FALSE by default)

devtools::build()

Other usefull commands and shortcuts:

Build vignettes

Build the vignettes with the command:

devtools::build_vignettes()

Compiled vignettes will reside in inst/doc. In particular, see frailtySurv.pdf

git pull

Use RStudio to pull the latest code if you’ve already cloned the repository. In the “git” pane, look for the Pull button. You can also view the commit history from there and see the diff between modified files, if any.

These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.