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R Speaks Non Linear Mixed Effects Modeling, RsNLME
, is a
suite of R packages and supplementary Shiny apps developed by Certara
that supports pharmacometric modeling inside R.
When used together, these packages can add a level of speed and flexibility to your pharmacometrics workflow that cannot be achieved with point-and-click type tools.
Whether you’re still learning R or a seasoned expert, efficiently build, execute, and analyze your models from the Shiny GUI, then generate the corresponding R code to reproduce and expand your workflow from the R command line.
Certara.RsNLME
uses tidyverse
syntax to
generate and update pharmacometric models in R. All functions can easily
be chained together using the %>%
operator from
magrittr
. See RsNLME
Examples.
library(Certara.RsNLME)
library(magrittr)
# Create two-compartment pharmacokinetic model
<- pkmodel(numCompartments = 2, data = pkData,
model ID = "Subject", Time = "Act_Time", A1 = "Amount", CObs = "Conc",
modelName = "TwCpt_IVBolus_FOCE_ELS")
# Update initial estimates
<- model %>%
model fixedEffect(effect = c("tvV", "tvCl", "tvV2", "tvCl2"), value = c(15, 5, 40, 15))
If you are still learning the command line syntax, use the
Certara.RsNLME.ModelBuilder
Shiny application from either
RStudio or Pirana to build your NLME model from the GUI and generate the
corresponding R and PML code to reproduce your model across multiple
environments.
library(Certara.RsNLME)
library(Certara.RsNLME.ModelBuilder)
<- modelBuilderUI(data = pkData) model
Learn more about Certara.RsNLME.ModelBuilder
here
Next, we can execute the above model we created from the Shiny GUI
inside R using the command fitmodel()
:
<- fitmodel(model)
job
print(job$Overall)
-2LL AIC BIC nParm nObs nSub EpsShrinkage Condition
Scenario RetCode LogLik 1: WorkFlow 1 -632.7953 1265.591 1283.591 1308.057 9 112 16 0.17297 3.34287
Or alternatively, use the Certara.RsNLME.ModelExecutor
Shiny application to specify additional engine arguments, change the
estimation algorithm, add output tables, and more - all from the Shiny
GUI!
library(Certara.RsNLME.ModelExecutor)
modelExecutorUI(model)
Learn more about Certara.RsNLME.ModelExecutor
here
After executing the model, we use the
Certara.Xpose.NLME
, xpose
,
ggplot2
, and flextable
packages to generate
our model diagnostic plots.
library(Certara.Xpose.NLME)
library(xpose)
library(ggplot2)
<- xposeNlmeModel(model, job)
xpdb
res_vs_idv(xpdb) +
theme_classic()
Learn more about Certara.Xpose.NLME
here
Or alternatively, use the Certara.ModelResults
Shiny
application to easily preview, customize, and report model diagnostics
plots and tables from the Shiny GUI. Furthermore, the application will
generate the corresponding .R
and .Rmd
code to
reproduce your model diagnostics.
library(Certara.ModelResults)
resultsUI(model)
Learn more about Certara.ModelResults
here
Lastly, users can execute a vpcmodel()
to generate a
Visual Predictive Check (VPC) plot and assess model fit.
Using the Certara.RsNLME
package, we will execute the
function vpcmodel()
to return our observed and simulated
data used to generate our VPC.
library(Certara.RsNLME)
<- vpcmodel(model) vpcJob
Next we’ll extract our observed and simulated data from the return
value of vpcmodel()
.
<- vpcJob$predcheck0
obs_data
<- vpcJob$predout sim_data
Then we can use the tidyvpc package to parameterize our VPC.
library(tidyvpc)
<- observed(obs_data, y = DV, x = IVAR) %>%
vpc simulated(sim_data, y = DV) %>%
binless() %>%
vpcstats()
Learn more about tidyvpc
here
Or alternatively, use the Certara.VPCResults
Shiny
application to easily parameterize, customize, and report VPC plots from
the Shiny GUI. Furthermore, the application will generate the
corresponding .R
and .Rmd
code to reproduce
your VPC’s in R.
vpcResultsUI(obs_data, sim_data)
Learn more about Certara.VPCResults
here
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.