Importing NONMEM into rxode2

The goal of nonmem2rx is to convert a NONMEM control stream to rxode2 for easy clinical trial simulation in R.

Here is a quick example of a conversion:

library(nonmem2rx)

# First we need the location of the nonmem control stream Since we are running an example, we will use one of the built-in examples in `nonmem2rx`
ctlFile <- system.file("mods/cpt/runODE032.ctl", package="nonmem2rx")
# You can use a control stream or other file. With the development
# version of `babelmixr2`, you can simply point to the listing file

mod <- nonmem2rx(ctlFile, lst=".res", save=FALSE, determineError=FALSE)
#> ℹ getting information from  '/tmp/Rtmpz3e4D1/Rinstb2fa2f282bfc/nonmem2rx/mods/cpt/runODE032.ctl'
#> ℹ reading in xml file
#> ℹ done
#> ℹ reading in ext file
#> ℹ done
#> ℹ reading in phi file
#> ℹ done
#> ℹ reading in lst file
#> ℹ abbreviated list parsing
#> ℹ done
#> ℹ done
#> ℹ splitting control stream by records
#> ℹ done
#> ℹ Processing record $INPUT
#> ℹ Processing record $MODEL
#> ℹ Processing record $gTHETA
#> ℹ Processing record $OMEGA
#> ℹ Processing record $SIGMA
#> ℹ Processing record $PROBLEM
#> ℹ Processing record $DATA
#> ℹ Processing record $SUBROUTINES
#> ℹ Processing record $PK
#> ℹ Processing record $DES
#> ℹ Processing record $ERROR
#> ℹ Processing record $ESTIMATION
#> ℹ Ignore record $ESTIMATION
#> ℹ Processing record $COVARIANCE
#> ℹ Ignore record $COVARIANCE
#> ℹ Processing record $TABLE
#> ℹ change initial estimate of `theta1` to `1.37034036528946`
#> ℹ change initial estimate of `theta2` to `4.19814911033061`
#> ℹ change initial estimate of `theta3` to `1.38003493562413`
#> ℹ change initial estimate of `theta4` to `3.87657341967489`
#> ℹ change initial estimate of `theta5` to `0.196446108190896`
#> ℹ change initial estimate of `eta1` to `0.101251418415006`
#> ℹ change initial estimate of `eta2` to `0.0993872449483344`
#> ℹ change initial estimate of `eta3` to `0.101302674763154`
#> ℹ change initial estimate of `eta4` to `0.0730497519364148`
#> ℹ read in nonmem input data (for model validation): /tmp/Rtmpz3e4D1/Rinstb2fa2f282bfc/nonmem2rx/mods/cpt/Bolus_2CPT.csv
#> ℹ ignoring lines that begin with a letter (IGNORE=@)'
#> ℹ applying names specified by $INPUT
#> ℹ subsetting accept/ignore filters code: .data[-which((.data$SD == 0)),]
#> ℹ done
#> using C compiler: ‘gcc (Ubuntu 11.4.0-1ubuntu1~22.04) 11.4.0’
#> ℹ read in nonmem IPRED data (for model validation): /tmp/Rtmpz3e4D1/Rinstb2fa2f282bfc/nonmem2rx/mods/cpt/runODE032.csv
#> ℹ done
#> ℹ changing most variables to lower case
#> ℹ done
#> ℹ replace theta names
#> ℹ done
#> ℹ replace eta names
#> ℹ done (no labels)
#> ℹ renaming compartments
#> ℹ done
#> using C compiler: ‘gcc (Ubuntu 11.4.0-1ubuntu1~22.04) 11.4.0’
#> ℹ solving ipred problem
#> ℹ done
#> ℹ solving pred problem
#> ℹ done
mod
#>  ── rxode2-based free-form 2-cmt ODE model ────────────────────────────────────── 
#>  ── Initalization: ──  
#> Fixed Effects ($theta): 
#>    theta1    theta2    theta3    theta4       RSV 
#> 1.3703404 4.1981491 1.3800349 3.8765734 0.1964461 
#> 
#> Omega ($omega): 
#>           eta1       eta2      eta3       eta4
#> eta1 0.1012514 0.00000000 0.0000000 0.00000000
#> eta2 0.0000000 0.09938724 0.0000000 0.00000000
#> eta3 0.0000000 0.00000000 0.1013027 0.00000000
#> eta4 0.0000000 0.00000000 0.0000000 0.07304975
#> 
#> States ($state or $stateDf): 
#>   Compartment Number Compartment Name
#> 1                  1          CENTRAL
#> 2                  2             PERI
#>  ── μ-referencing ($muRefTable): ──  
#>    theta  eta level
#> 1 theta1 eta1    id
#> 2 theta2 eta2    id
#> 3 theta3 eta3    id
#> 4 theta4 eta4    id
#> 
#>  ── Model (Normalized Syntax): ── 
#> function() {
#>     description <- "BOLUS_2CPT_CLV1QV2 SINGLE DOSE FOCEI (120 Ind/2280 Obs) runODE032"
#>     dfObs <- 2280
#>     dfSub <- 120
#>     sigma <- lotri({
#>         eps1 ~ 1
#>     })
#>     thetaMat <- lotri({
#>         theta1 ~ c(theta1 = 0.000887681)
#>         theta2 ~ c(theta1 = -0.00010551, theta2 = 0.000871409)
#>         theta3 ~ c(theta1 = 0.000184416, theta2 = -0.000106195, 
#>             theta3 = 0.00299336)
#>         theta4 ~ c(theta1 = -0.000120234, theta2 = -5.06663e-05, 
#>             theta3 = 0.000165252, theta4 = 0.00121347)
#>         RSV ~ c(theta1 = 5.2783e-08, theta2 = -1.56562e-05, theta3 = 5.99331e-06, 
#>             theta4 = -2.53991e-05, RSV = 9.94218e-06)
#>         eps1 ~ c(theta1 = 0, theta2 = 0, theta3 = 0, theta4 = 0, 
#>             RSV = 0, eps1 = 0)
#>         eta1 ~ c(theta1 = -4.71273e-05, theta2 = 4.69667e-05, 
#>             theta3 = -3.64271e-05, theta4 = 2.54796e-05, RSV = -8.16885e-06, 
#>             eps1 = 0, eta1 = 0.000169296)
#>         omega.2.1 ~ c(theta1 = 0, theta2 = 0, theta3 = 0, theta4 = 0, 
#>             RSV = 0, eps1 = 0, eta1 = 0, omega.2.1 = 0)
#>         eta2 ~ c(theta1 = -7.37156e-05, theta2 = 2.56634e-05, 
#>             theta3 = -8.08349e-05, theta4 = 1.37e-05, RSV = -4.36564e-06, 
#>             eps1 = 0, eta1 = 8.75181e-06, omega.2.1 = 0, eta2 = 0.00015125)
#>         omega.3.1 ~ c(theta1 = 0, theta2 = 0, theta3 = 0, theta4 = 0, 
#>             RSV = 0, eps1 = 0, eta1 = 0, omega.2.1 = 0, eta2 = 0, 
#>             omega.3.1 = 0)
#>         omega.3.2 ~ c(theta1 = 0, theta2 = 0, theta3 = 0, theta4 = 0, 
#>             RSV = 0, eps1 = 0, eta1 = 0, omega.2.1 = 0, eta2 = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0)
#>         eta3 ~ c(theta1 = 6.63383e-05, theta2 = -8.19002e-05, 
#>             theta3 = 0.000548985, theta4 = 0.000168356, RSV = 1.59122e-06, 
#>             eps1 = 0, eta1 = 3.48714e-05, omega.2.1 = 0, eta2 = 4.31593e-07, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta3 = 0.000959029)
#>         omega.4.1 ~ c(theta1 = 0, theta2 = 0, theta3 = 0, theta4 = 0, 
#>             RSV = 0, eps1 = 0, eta1 = 0, omega.2.1 = 0, eta2 = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta3 = 0, omega.4.1 = 0)
#>         omega.4.2 ~ c(theta1 = 0, theta2 = 0, theta3 = 0, theta4 = 0, 
#>             RSV = 0, eps1 = 0, eta1 = 0, omega.2.1 = 0, eta2 = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta3 = 0, omega.4.1 = 0, 
#>             omega.4.2 = 0)
#>         omega.4.3 ~ c(theta1 = 0, theta2 = 0, theta3 = 0, theta4 = 0, 
#>             RSV = 0, eps1 = 0, eta1 = 0, omega.2.1 = 0, eta2 = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta3 = 0, omega.4.1 = 0, 
#>             omega.4.2 = 0, omega.4.3 = 0)
#>         eta4 ~ c(theta1 = -9.49661e-06, theta2 = 0.000110108, 
#>             theta3 = -0.000306537, theta4 = -9.12897e-05, RSV = 3.1877e-06, 
#>             eps1 = 0, eta1 = 1.36628e-05, omega.2.1 = 0, eta2 = -1.95096e-05, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta3 = -0.00012977, 
#>             omega.4.1 = 0, omega.4.2 = 0, omega.4.3 = 0, eta4 = 0.00051019)
#>     })
#>     validation <- c("IPRED relative difference compared to Nonmem IPRED: 0%; 95% percentile: (0%,0%); rtol=6.43e-06", 
#>         "IPRED absolute difference compared to Nonmem IPRED: 95% percentile: (2.19e-05, 0.0418); atol=0.00167", 
#>         "IWRES relative difference compared to Nonmem IWRES: 0%; 95% percentile: (0%,0.01%); rtol=8.99e-06", 
#>         "IWRES absolute difference compared to Nonmem IWRES: 95% percentile: (1.82e-07, 4.63e-05); atol=3.65e-06", 
#>         "PRED relative difference compared to Nonmem PRED: 0%; 95% percentile: (0%,0%); rtol=6.41e-06", 
#>         "PRED absolute difference compared to Nonmem PRED: 95% percentile: (1.41e-07,0.00382) atol=6.41e-06")
#>     ini({
#>         theta1 <- 1.37034036528946
#>         label("log Cl")
#>         theta2 <- 4.19814911033061
#>         label("log Vc")
#>         theta3 <- 1.38003493562413
#>         label("log Q")
#>         theta4 <- 3.87657341967489
#>         label("log Vp")
#>         RSV <- c(0, 0.196446108190896, 1)
#>         label("RSV")
#>         eta1 ~ 0.101251418415006
#>         eta2 ~ 0.0993872449483344
#>         eta3 ~ 0.101302674763154
#>         eta4 ~ 0.0730497519364148
#>     })
#>     model({
#>         cmt(CENTRAL)
#>         cmt(PERI)
#>         cl <- exp(theta1 + eta1)
#>         v <- exp(theta2 + eta2)
#>         q <- exp(theta3 + eta3)
#>         v2 <- exp(theta4 + eta4)
#>         v1 <- v
#>         scale1 <- v
#>         k21 <- q/v2
#>         k12 <- q/v
#>         d/dt(CENTRAL) <- k21 * PERI - k12 * CENTRAL - cl * CENTRAL/v1
#>         d/dt(PERI) <- -k21 * PERI + k12 * CENTRAL
#>         f <- CENTRAL/scale1
#>         ipred <- f
#>         rescv <- RSV
#>         w <- ipred * rescv
#>         ires <- DV - ipred
#>         iwres <- ires/w
#>         y <- ipred + w * eps1
#>     })
#> }
#>  ── nonmem2rx translation notes ($notes): ──  
#>    • there are duplicate eta names, not renaming duplicate parameters 
#>    • there are duplicate theta names, not renaming duplicate parameters 
#>  ── nonmem2rx extra properties: ──  
#> 
#> Sigma ($sigma): 
#>      eps1
#> eps1    1
#> 
#> other properties include: $nonmemData, $etaData
#> captured NONMEM table outputs: $predData, $ipredData
#> NONMEM/rxode2 comparison data: $iwresCompare, $predCompare, $ipredCompare
#> NONMEM/rxode2 composite comparison: $predAtol, $predRtol, $ipredAtol, $ipredRtol, $iwresAtol, $iwresRtol

Setting up nonmem2rx for your model

Some common options that you may want to change when importing NONMEM control stream are:

You probably also want to change the name of parameters and compartments. The easiest way to name the parameters whatever you want is to pre-specify the names. For example:

mod <- nonmem2rx(system.file("mods/cpt/runODE032.ctl", package="nonmem2rx"), lst=".res", save=FALSE,
                 thetaNames=c("lcl", "lvc", "lq", "lvp", "prop.sd"),
                 etaNames=c("eta.cl", "eta.vc", "eta.q","eta.vp"),
                 cmtNames = c("central", "perip"))
#> ℹ getting information from  '/tmp/Rtmpz3e4D1/Rinstb2fa2f282bfc/nonmem2rx/mods/cpt/runODE032.ctl'
#> ℹ reading in xml file
#> ℹ done
#> ℹ reading in ext file
#> ℹ done
#> ℹ reading in phi file
#> ℹ done
#> ℹ reading in lst file
#> ℹ abbreviated list parsing
#> ℹ done
#> ℹ done
#> ℹ splitting control stream by records
#> ℹ done
#> ℹ Processing record $INPUT
#> ℹ Processing record $MODEL
#> ℹ Processing record $gTHETA
#> ℹ Processing record $OMEGA
#> ℹ Processing record $SIGMA
#> ℹ Processing record $PROBLEM
#> ℹ Processing record $DATA
#> ℹ Processing record $SUBROUTINES
#> ℹ Processing record $PK
#> ℹ Processing record $DES
#> ℹ Processing record $ERROR
#> ℹ Processing record $ESTIMATION
#> ℹ Ignore record $ESTIMATION
#> ℹ Processing record $COVARIANCE
#> ℹ Ignore record $COVARIANCE
#> ℹ Processing record $TABLE
#> ℹ change initial estimate of `theta1` to `1.37034036528946`
#> ℹ change initial estimate of `theta2` to `4.19814911033061`
#> ℹ change initial estimate of `theta3` to `1.38003493562413`
#> ℹ change initial estimate of `theta4` to `3.87657341967489`
#> ℹ change initial estimate of `theta5` to `0.196446108190896`
#> ℹ change initial estimate of `eta1` to `0.101251418415006`
#> ℹ change initial estimate of `eta2` to `0.0993872449483344`
#> ℹ change initial estimate of `eta3` to `0.101302674763154`
#> ℹ change initial estimate of `eta4` to `0.0730497519364148`
#> ℹ read in nonmem input data (for model validation): /tmp/Rtmpz3e4D1/Rinstb2fa2f282bfc/nonmem2rx/mods/cpt/Bolus_2CPT.csv
#> ℹ ignoring lines that begin with a letter (IGNORE=@)'
#> ℹ applying names specified by $INPUT
#> ℹ subsetting accept/ignore filters code: .data[-which((.data$SD == 0)),]
#> ℹ done
#> using C compiler: ‘gcc (Ubuntu 11.4.0-1ubuntu1~22.04) 11.4.0’
#> ℹ read in nonmem IPRED data (for model validation): /tmp/Rtmpz3e4D1/Rinstb2fa2f282bfc/nonmem2rx/mods/cpt/runODE032.csv
#> ℹ done
#> ℹ changing most variables to lower case
#> ℹ done
#> ℹ replace theta names
#> ℹ done
#> ℹ replace eta names
#> ℹ done
#> ℹ renaming compartments
#> ℹ done
#> using C compiler: ‘gcc (Ubuntu 11.4.0-1ubuntu1~22.04) 11.4.0’
#> ℹ solving ipred problem
#> ℹ done
#> ℹ solving pred problem
#> ℹ done

mod
#>  ── rxode2-based free-form 2-cmt ODE model ────────────────────────────────────── 
#>  ── Initalization: ──  
#> Fixed Effects ($theta): 
#>       lcl       lvc        lq       lvp   prop.sd 
#> 1.3703404 4.1981491 1.3800349 3.8765734 0.1964461 
#> 
#> Omega ($omega): 
#>           eta.cl     eta.vc     eta.q     eta.vp
#> eta.cl 0.1012514 0.00000000 0.0000000 0.00000000
#> eta.vc 0.0000000 0.09938724 0.0000000 0.00000000
#> eta.q  0.0000000 0.00000000 0.1013027 0.00000000
#> eta.vp 0.0000000 0.00000000 0.0000000 0.07304975
#> 
#> States ($state or $stateDf): 
#>   Compartment Number Compartment Name
#> 1                  1          central
#> 2                  2            perip
#>  ── μ-referencing ($muRefTable): ──  
#>   theta    eta level
#> 1   lcl eta.cl    id
#> 2   lvc eta.vc    id
#> 3    lq  eta.q    id
#> 4   lvp eta.vp    id
#> 
#>  ── Model (Normalized Syntax): ── 
#> function() {
#>     description <- "BOLUS_2CPT_CLV1QV2 SINGLE DOSE FOCEI (120 Ind/2280 Obs) runODE032"
#>     dfObs <- 2280
#>     dfSub <- 120
#>     sigma <- lotri({
#>         eps1 ~ 1
#>     })
#>     thetaMat <- lotri({
#>         lcl ~ c(lcl = 0.000887681)
#>         lvc ~ c(lcl = -0.00010551, lvc = 0.000871409)
#>         lq ~ c(lcl = 0.000184416, lvc = -0.000106195, lq = 0.00299336)
#>         lvp ~ c(lcl = -0.000120234, lvc = -5.06663e-05, lq = 0.000165252, 
#>             lvp = 0.00121347)
#>         prop.sd ~ c(lcl = 5.2783e-08, lvc = -1.56562e-05, lq = 5.99331e-06, 
#>             lvp = -2.53991e-05, prop.sd = 9.94218e-06)
#>         eps1 ~ c(lcl = 0, lvc = 0, lq = 0, lvp = 0, prop.sd = 0, 
#>             eps1 = 0)
#>         eta.cl ~ c(lcl = -4.71273e-05, lvc = 4.69667e-05, lq = -3.64271e-05, 
#>             lvp = 2.54796e-05, prop.sd = -8.16885e-06, eps1 = 0, 
#>             eta.cl = 0.000169296)
#>         omega.2.1 ~ c(lcl = 0, lvc = 0, lq = 0, lvp = 0, prop.sd = 0, 
#>             eps1 = 0, eta.cl = 0, omega.2.1 = 0)
#>         eta.vc ~ c(lcl = -7.37156e-05, lvc = 2.56634e-05, lq = -8.08349e-05, 
#>             lvp = 1.37e-05, prop.sd = -4.36564e-06, eps1 = 0, 
#>             eta.cl = 8.75181e-06, omega.2.1 = 0, eta.vc = 0.00015125)
#>         omega.3.1 ~ c(lcl = 0, lvc = 0, lq = 0, lvp = 0, prop.sd = 0, 
#>             eps1 = 0, eta.cl = 0, omega.2.1 = 0, eta.vc = 0, 
#>             omega.3.1 = 0)
#>         omega.3.2 ~ c(lcl = 0, lvc = 0, lq = 0, lvp = 0, prop.sd = 0, 
#>             eps1 = 0, eta.cl = 0, omega.2.1 = 0, eta.vc = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0)
#>         eta.q ~ c(lcl = 6.63383e-05, lvc = -8.19002e-05, lq = 0.000548985, 
#>             lvp = 0.000168356, prop.sd = 1.59122e-06, eps1 = 0, 
#>             eta.cl = 3.48714e-05, omega.2.1 = 0, eta.vc = 4.31593e-07, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta.q = 0.000959029)
#>         omega.4.1 ~ c(lcl = 0, lvc = 0, lq = 0, lvp = 0, prop.sd = 0, 
#>             eps1 = 0, eta.cl = 0, omega.2.1 = 0, eta.vc = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta.q = 0, omega.4.1 = 0)
#>         omega.4.2 ~ c(lcl = 0, lvc = 0, lq = 0, lvp = 0, prop.sd = 0, 
#>             eps1 = 0, eta.cl = 0, omega.2.1 = 0, eta.vc = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta.q = 0, omega.4.1 = 0, 
#>             omega.4.2 = 0)
#>         omega.4.3 ~ c(lcl = 0, lvc = 0, lq = 0, lvp = 0, prop.sd = 0, 
#>             eps1 = 0, eta.cl = 0, omega.2.1 = 0, eta.vc = 0, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta.q = 0, omega.4.1 = 0, 
#>             omega.4.2 = 0, omega.4.3 = 0)
#>         eta.vp ~ c(lcl = -9.49661e-06, lvc = 0.000110108, lq = -0.000306537, 
#>             lvp = -9.12897e-05, prop.sd = 3.1877e-06, eps1 = 0, 
#>             eta.cl = 1.36628e-05, omega.2.1 = 0, eta.vc = -1.95096e-05, 
#>             omega.3.1 = 0, omega.3.2 = 0, eta.q = -0.00012977, 
#>             omega.4.1 = 0, omega.4.2 = 0, omega.4.3 = 0, eta.vp = 0.00051019)
#>     })
#>     validation <- c("IPRED relative difference compared to Nonmem IPRED: 0%; 95% percentile: (0%,0%); rtol=6.43e-06", 
#>         "IPRED absolute difference compared to Nonmem IPRED: 95% percentile: (2.19e-05, 0.0418); atol=0.00167", 
#>         "IWRES relative difference compared to Nonmem IWRES: 0%; 95% percentile: (0%,0.01%); rtol=8.99e-06", 
#>         "IWRES absolute difference compared to Nonmem IWRES: 95% percentile: (1.82e-07, 4.63e-05); atol=3.65e-06", 
#>         "PRED relative difference compared to Nonmem PRED: 0%; 95% percentile: (0%,0%); rtol=6.41e-06", 
#>         "PRED absolute difference compared to Nonmem PRED: 95% percentile: (1.41e-07,0.00382) atol=6.41e-06")
#>     ini({
#>         lcl <- 1.37034036528946
#>         label("log Cl")
#>         lvc <- 4.19814911033061
#>         label("log Vc")
#>         lq <- 1.38003493562413
#>         label("log Q")
#>         lvp <- 3.87657341967489
#>         label("log Vp")
#>         prop.sd <- c(0, 0.196446108190896, 1)
#>         label("RSV")
#>         eta.cl ~ 0.101251418415006
#>         eta.vc ~ 0.0993872449483344
#>         eta.q ~ 0.101302674763154
#>         eta.vp ~ 0.0730497519364148
#>     })
#>     model({
#>         cmt(central)
#>         cmt(perip)
#>         cl <- exp(lcl + eta.cl)
#>         v <- exp(lvc + eta.vc)
#>         q <- exp(lq + eta.q)
#>         v2 <- exp(lvp + eta.vp)
#>         v1 <- v
#>         scale1 <- v
#>         k21 <- q/v2
#>         k12 <- q/v
#>         d/dt(central) <- k21 * perip - k12 * central - cl * central/v1
#>         d/dt(perip) <- -k21 * perip + k12 * central
#>         f <- central/scale1
#>         ipred <- f
#>         rescv <- prop.sd
#>         ipred ~ prop(prop.sd)
#>     })
#> }
#>  ── nonmem2rx extra properties: ──  
#> other properties include: $nonmemData, $etaData
#> captured NONMEM table outputs: $predData, $ipredData
#> NONMEM/rxode2 comparison data: $iwresCompare, $predCompare, $ipredCompare
#> NONMEM/rxode2 composite comparison: $predAtol, $predRtol, $ipredAtol, $ipredRtol, $iwresAtol, $iwresRtol

This checks the parameter names to make sure they are the same length as the input names, if they are not, the model will skip parameter renaming and keep the default translation names theta# and eta#.

As a note, sigma parameters are not currently renamed; So for the following model (which grabs the parameter automatically labels to generate variables), sigma is simply eps#.

mod <- nonmem2rx(system.file("Theopd.ctl", package="nonmem2rx"), save=FALSE)
#> ℹ getting information from  '/tmp/Rtmpz3e4D1/Rinstb2fa2f282bfc/nonmem2rx/Theopd.ctl'
#> ℹ reading in lst file
#> ℹ seeing if file argument is actually lst file
#> ℹ not list file, control stream
#> ℹ done
#> ℹ splitting control stream by records
#> ℹ done
#> ℹ Processing record $INPUT
#> ℹ Processing record $gTHETA
#> ℹ Processing record $OMEGA
#> ℹ Processing record $SIGMA
#> ℹ Processing record $PROBLEM
#> ℹ Processing record $DATA
#> ℹ Processing record $ESTIMATION
#> ℹ Ignore record $ESTIMATION
#> ℹ Processing record $COVARIANCE
#> ℹ Ignore record $COVARIANCE
#> ℹ Processing record $PRED
#> ℹ Processing record $TABLE
#> ℹ final parameters not updated, will skip validation
#> ℹ changing most variables to lower case
#> ℹ done
#> ℹ replace theta names
#> ℹ done
#> ℹ replace eta names
#> ℹ done
mod
#>  ── rxode2-based Pred model ───────────────────────────────────────────────────── 
#>  ── Initalization: ──  
#> Fixed Effects ($theta): 
#>   POP_E0 POP_EMAX  POP_C50 
#>      150      200       10 
#> 
#> Omega ($omega): 
#>          PPV_E0 PPV_EMAX PPV_C50
#> PPV_E0      0.5      0.0     0.0
#> PPV_EMAX    0.0      0.5     0.0
#> PPV_C50     0.0      0.0     0.5
#>  ── Model (Normalized Syntax): ── 
#> function() {
#>     description <- "theophylline pharmacodynamics standard control stream"
#>     sigma <- lotri({
#>         eps1 ~ 100
#>     })
#>     validation <- "final parameters not updated, validation skipped"
#>     ini({
#>         POP_E0 <- c(0, 150)
#>         label("POP_E0 1")
#>         POP_EMAX <- c(0, 200)
#>         label("POP_EMAX 2")
#>         POP_C50 <- c(0.001, 10)
#>         label("POP_C50 3")
#>         PPV_E0 ~ 0.5
#>         PPV_EMAX ~ 0.5
#>         PPV_C50 ~ 0.5
#>     })
#>     model({
#>         e0 <- POP_E0 * exp(PPV_E0)
#>         emax <- POP_EMAX * exp(PPV_EMAX)
#>         ec50 <- POP_C50 * exp(PPV_C50)
#>         y <- e0 + emax * THEO/(THEO + ec50) + eps1
#>     })
#> }
#>  ── nonmem2rx extra properties: ──  
#> 
#> Sigma ($sigma): 
#>      eps1
#> eps1  100
#> 
#> other properties include: $etaData
#> captured NONMEM table outputs: $predData, $ipredData
#> NONMEM/rxode2 comparison data: $iwresCompare, $predCompare, $ipredCompare
#> NONMEM/rxode2 composite comparison: $predAtol, $predRtol, $ipredAtol, $ipredRtol, $iwresAtol, $iwresRtol

You can still rename however you wish, though, using model piping (rxRename() or dplyr::rename() would both work):

mod <- mod %>% rxRename(add.var=eps1)
mod
#>  ── rxode2-based Pred model ───────────────────────────────────────────────────── 
#>  ── Initalization: ──  
#> Fixed Effects ($theta): 
#>   POP_E0 POP_EMAX  POP_C50 
#>      150      200       10 
#> 
#> Omega ($omega): 
#>          PPV_E0 PPV_EMAX PPV_C50
#> PPV_E0      0.5      0.0     0.0
#> PPV_EMAX    0.0      0.5     0.0
#> PPV_C50     0.0      0.0     0.5
#>  ── Model (Normalized Syntax): ── 
#> function() {
#>     description <- "theophylline pharmacodynamics standard control stream"
#>     sigma <- lotri({
#>         add.var ~ 100
#>     })
#>     validation <- "final parameters not updated, validation skipped"
#>     ini({
#>         POP_E0 <- c(0, 150)
#>         label("POP_E0 1")
#>         POP_EMAX <- c(0, 200)
#>         label("POP_EMAX 2")
#>         POP_C50 <- c(0.001, 10)
#>         label("POP_C50 3")
#>         PPV_E0 ~ 0.5
#>         PPV_EMAX ~ 0.5
#>         PPV_C50 ~ 0.5
#>     })
#>     model({
#>         e0 <- POP_E0 * exp(PPV_E0)
#>         emax <- POP_EMAX * exp(PPV_EMAX)
#>         ec50 <- POP_C50 * exp(PPV_C50)
#>         y <- e0 + emax * THEO/(THEO + ec50) + add.var
#>     })
#> }
#>  ── nonmem2rx extra properties: ──  
#> 
#> Sigma ($sigma): 
#>         add.var
#> add.var     100
#> 
#> other properties include: $etaData
#> captured NONMEM table outputs: $predData, $ipredData
#> NONMEM/rxode2 comparison data: $iwresCompare, $predCompare, $ipredCompare
#> NONMEM/rxode2 composite comparison: $predAtol, $predRtol, $ipredAtol, $ipredRtol, $iwresAtol, $iwresRtol

This model does not specify the residuals in a way that makes sense to nlmixr2. If you want, you can still convert the rxode2 model to a nlmixr2 fit.

Technical details about reading NONMEM to rxode2

The key files to import are the NONMEM control stream (or related file) and the NONMEM output (often with a .lst or .res extension).

The import process steps are below: