R Under development (unstable) (2023-12-07 r85661 ucrt) -- "Unsuffered Consequences" Copyright (C) 2023 The R Foundation for Statistical Computing Platform: x86_64-w64-mingw32/x64 R is free software and comes with ABSOLUTELY NO WARRANTY. You are welcome to redistribute it under certain conditions. Type 'license()' or 'licence()' for distribution details. R is a collaborative project with many contributors. Type 'contributors()' for more information and 'citation()' on how to cite R or R packages in publications. Type 'demo()' for some demos, 'help()' for on-line help, or 'help.start()' for an HTML browser interface to help. Type 'q()' to quit R. > # R CMD BATCH --no-timing --no-restore --no-save ivive_test.R ivive_test.Rout > > # Get rid of anything in the workspace: > rm(list=ls()) > > library(httk) > > # Reduce the number of samples used by Monte Carlo to decrease runtime for > # CRAN checks (never use predictions with only ten draws): > NSAMP <- 10 > > # From Honda et al. (2019) (currently only use mean conc's because steady-state > # calculation does not give max): > # > # Default HTTK function arguments correspond to "Honda3" > # > # in vivo Conc. Metabolic Clearance In Vivo Conc. In Vitro Conc. > #Honda1 Veinous (Plasma) Restrictive Free Free > #Honda2 Veinous Restrictive Free Nominal > #Honda3 Veinous Restrictive Total Nominal > #Honda4 Target Tissue Non-restrictive Total Nominal > # > # "Honda1" uses plasma concentration, restrictive clearance, and treats the > # unbound invivo concentration as bioactive. For IVIVE, any input nominal > # concentration in vitro should be converted to cfree.invitro using > # \code{\link{armitage_eval}}, otherwise performance will be the same as > # "Honda2". > # > # Use \code{\link{show_honda.ivive()}} to print summary of Honda et al. (2019) > # results. > > # Default HTTK: > set.seed(12345) > Css0 <- calc_mc_css(chem.name="bisphenol a", + output.units="uM", + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. > set.seed(12345) > # This should be the same as calc_mc_oral_equiv: > signif(3/Css0,4) == + calc_mc_oral_equiv(3.0,chem.name="bisphenol a", + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. uM concentration converted to mgpkgpday dose for 0.95 quantile. 95% TRUE Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. > > # Honda1: > set.seed(12345) > Css1 <- calc_mc_css(chem.name="bisphenol a", + calc.analytic.css.arg.list=list( + restrictive.clearance = TRUE, + bioactive.free.invivo = TRUE), + output.units="uM", + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. > temp <- armitage_eval( + casrn.vector = c("80-05-7"), + this.FBSf = 0.1, + this.well_number = 384, + nomconc = 3) > cfree <- temp$cfree.invitro > set.seed(12345) > # This should be the same as calc_mc_oral_equiv with IVIVE=="Honda1": > signif(cfree/Css1,4) == + calc_mc_oral_equiv(cfree,chem.name="bisphenol a", + calc.analytic.css.arg.list=list(IVIVE="Honda1"), + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. uM concentration converted to mgpkgpday dose for 0.95 quantile. 95% TRUE Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. 4: In honda.ivive(method = IVIVE, tissue = tissue) : Argument method ="Honda1" uses plasma concentration, restrictive clearance, and treats the unbound invivo concentration as bioactive. For IVIVE, any input nominal concentration in vitro should be converted to cfree.invitro using armitage_eval(), otherwise performance will be the same as "Honda2". Use show_honda.ivive() to print summary of Honda et al. 2019 results. > # Should be different from default: > !(Css1 %in% c(Css0)) [1] TRUE > > # Honda2: > set.seed(12345) > Css2 <- calc_mc_css(chem.name="bisphenol a", + calc.analytic.css.arg.list=list( + restrictive.clearance = TRUE, + bioactive.free.invivo = TRUE), + output.units="uM", + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. > set.seed(12345) > # This should be the same as calc_mc_oral_equiv with IVIVE=="Honda2": > signif(3/Css2,4) == + calc_mc_oral_equiv(3.0,chem.name="bisphenol a", + calc.analytic.css.arg.list=list(IVIVE="Honda2"), + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. uM concentration converted to mgpkgpday dose for 0.95 quantile. 95% TRUE Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. 4: In honda.ivive(method = IVIVE, tissue = tissue) : Argument method ="Honda2" uses plasma concentration, restrictive clearance, and treats the unbound concentration as bioactive. > # Should be different from previous: > !(Css2 %in% c(Css0)) [1] TRUE > > # Honda 3 (should be the same as degault HTTK): > set.seed(12345) > Css3 <- calc_mc_css(chem.name="bisphenol a", + calc.analytic.css.arg.list=list( + restrictive.clearance = TRUE, + bioactive.free.invivo = FALSE), + output.units="uM", + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. > set.seed(12345) > # This should be the same as calc_mc_oral_equiv with IVIVE=="Honda3": > signif(3/Css3,4) == + calc_mc_oral_equiv(3.0,chem.name="bisphenol a", + calc.analytic.css.arg.list=list(IVIVE="Honda3"), + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. uM concentration converted to mgpkgpday dose for 0.95 quantile. 95% TRUE Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. 4: In honda.ivive(method = IVIVE, tissue = tissue) : Argument method ="Honda3" uses plasma concentration, restrictive clearance, and treats the total concentration as bioactive. This is equivalent to the default httk assumptions. > # Should be same as default: > Css0 == Css3 95% TRUE > # Should be different from previous: > !(Css3 %in% c(Css1, Css2)) [1] TRUE > > # Honda4: > set.seed(12345) > Css4 <- calc_mc_css(chem.name="bisphenol a", + calc.analytic.css.arg.list=list( + tissue="liver", + restrictive.clearance = FALSE, + bioactive.free.invivo = FALSE), + model="pbtk", + output.units="uM", + samples=NSAMP) Human plasma concentration returned in uM units for 0.95 quantile. Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In available_rblood2plasma(chem.cas = chem.cas, species = species, : Human in vivo measured Rblood2plasma used. 4: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. > set.seed(12345) > # This should be the same as calc_mc_oral_equiv with IVIVE=="Honda4": > signif(3/Css4,4) == + calc_mc_oral_equiv(3.0,chem.name="bisphenol a", + calc.analytic.css.arg.list=list(IVIVE="Honda4"), + samples=NSAMP, + model="pbtk") Human plasma concentration returned in uM units for 0.95 quantile. uM concentration converted to mgpkgpday dose for 0.95 quantile. 95% TRUE Warning messages: 1: In get_clint(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Clint is provided as a distribution. 2: In get_fup(dtxsid = dtxsid, chem.name = chem.name, chem.cas = chem.cas, : Fraction unbound is provided as a distribution. 3: In available_rblood2plasma(chem.cas = chem.cas, species = species, : Human in vivo measured Rblood2plasma used. 4: In get_caco2(chem.cas = chem.cas, chem.name = chem.name, dtxsid = dtxsid, : Default value of 1.6 used for Caco2 permeability. 5: In honda.ivive(method = IVIVE, tissue = tissue) : Argument method ="Honda4" uses target tissue (liver) concentration, non-restrictive clearance, and treats the total concentration as bioactive. > # Should be different from previous: > !(Css4 %in% c(Css0, Css1, Css2, Css3)) [1] TRUE > > # Quit without saving or displaying messages: > quit("no") > proc.time() user system elapsed 10.23 0.35 10.56