| ICA.BinBin |
Assess surrogacy in the causal-inference single-trial setting in the binary-binary case |
| ICA.BinBin.CounterAssum |
ICA (binary-binary setting) that is obtaied when the counterfactual correlations are assumed to fall within some prespecified ranges. |
| ICA.BinBin.Grid.Full |
Assess surrogacy in the causal-inference single-trial setting in the binary-binary case when monotonicity for S and T is assumed using the full grid-based approach |
| ICA.BinBin.Grid.Sample |
Assess surrogacy in the causal-inference single-trial setting in the binary-binary case when monotonicity for S and T is assumed using the grid-based sample approach |
| ICA.BinBin.Grid.Sample.Uncert |
Assess surrogacy in the causal-inference single-trial setting in the binary-binary case when monotonicity for S and T is assumed using the grid-based sample approach, accounting for sampling variability in the marginal pi. |
| ICA.BinCont |
Assess surrogacy in the causal-inference single-trial setting in the binary-continuous case |
| ICA.ContCont |
Assess surrogacy in the causal-inference single-trial setting (Individual Causal Association, ICA) in the Continuous-continuous case |
| ICA.ContCont.MultS |
Assess surrogacy in the causal-inference single-trial setting (Individual Causal Association, ICA) using a continuous univariate T and multiple continuous S |
| ICA.ContCont.MultS.MPC |
Assess surrogacy in the causal-inference single-trial setting (Individual Causal Association, ICA) using a continuous univariate T and multiple continuous S, by simulating correlation matrices using a modified algorithm based on partial correlations |
| ICA.ContCont.MultS.PC |
Assess surrogacy in the causal-inference single-trial setting (Individual Causal Association, ICA) using a continuous univariate T and multiple continuous S, by simulating correlation matrices using an algorithm based on partial correlations |
| ICA.ContCont.MultS_alt |
Assess surrogacy in the causal-inference single-trial setting (Individual Causal Association, ICA) using a continuous univariate T and multiple continuous S, alternative approach |
| ICA.Sample.ContCont |
Assess surrogacy in the causal-inference single-trial setting (Individual Causal Association, ICA) in the Continuous-continuous case using the grid-based sample approach |
| ISTE.ContCont |
Individual-level surrogate threshold effect for continuous normally distributed surrogate and true endpoints. |
| plot Causal-Inference BinBin |
Plots the (Meta-Analytic) Individual Causal Association and related metrics when S and T are binary outcomes |
| plot Causal-Inference BinCont |
Plots the (Meta-Analytic) Individual Causal Association and related metrics when S is continuous and T is binary |
| plot Causal-Inference ContCont |
Plots the (Meta-Analytic) Individual Causal Association when S and T are continuous outcomes |
| plot FixedDiscrDiscrIT |
Provides plots of trial-level surrogacy in the Information-Theoretic framework |
| plot Information-Theoretic |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework |
| plot Information-Theoretic BinCombn |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework when both S and T are binary, or when S is binary and T is continuous (or vice versa) |
| plot ISTE.ContCont |
Plots the individual-level surrogate threshold effect (STE) values and related metrics |
| plot MaxEnt ContCont |
Plots the sensitivity-based and maximum entropy based Individual Causal Association when S and T are continuous outcomes in the single-trial setting |
| plot MaxEntICA BinBin |
Plots the sensitivity-based and maximum entropy based Individual Causal Association when S and T are binary outcomes |
| plot MaxEntSPF BinBin |
Plots the sensitivity-based and maximum entropy based surrogate predictive function (SPF) when S and T are binary outcomes. |
| plot Meta-Analytic |
Provides plots of trial- and individual-level surrogacy in the meta-analytic framework |
| plot MinSurrContCont |
Graphically illustrates the theoretical plausibility of finding a good surrogate endpoint in the continuous-continuous case |
| plot PredTrialTContCont |
Plots the expected treatment effect on the true endpoint in a new trial (when both S and T are normally distributed continuous endpoints) |
| plot SPF BinBin |
Plots the surrogate predictive function (SPF) in the binary-binary settinf. |
| plot SPF BinCont |
Plots the surrogate predictive function (SPF) in the binary-continuous setting. |
| plot.BifixedContCont |
Provides plots of trial- and individual-level surrogacy in the meta-analytic framework |
| plot.BimixedContCont |
Provides plots of trial- and individual-level surrogacy in the meta-analytic framework |
| plot.comb27.BinBin |
Plots the distribution of prediction error functions in decreasing order of appearance. |
| plot.Fano.BinBin |
Plots the distribution of R^2_{HL} either as a density or as function of pi_{10} in the setting where both S and T are binary endpoints |
| plot.FixedBinBinIT |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework when both S and T are binary, or when S is binary and T is continuous (or vice versa) |
| plot.FixedBinContIT |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework when both S and T are binary, or when S is binary and T is continuous (or vice versa) |
| plot.FixedContBinIT |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework when both S and T are binary, or when S is binary and T is continuous (or vice versa) |
| plot.FixedContContIT |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework |
| plot.FixedDiscrDiscrIT |
Provides plots of trial-level surrogacy in the Information-Theoretic framework |
| plot.ICA.BinBin |
Plots the (Meta-Analytic) Individual Causal Association and related metrics when S and T are binary outcomes |
| plot.ICA.BinCont |
Plots the (Meta-Analytic) Individual Causal Association and related metrics when S is continuous and T is binary |
| plot.ICA.ContCont |
Plots the (Meta-Analytic) Individual Causal Association when S and T are continuous outcomes |
| plot.ICA.ContCont.MultS |
Plots the Individual Causal Association in the setting where there are multiple continuous S and a continuous T |
| plot.ICA.ContCont.MultS_alt |
Plots the Individual Causal Association in the setting where there are multiple continuous S and a continuous T |
| plot.ISTE.ContCont |
Plots the individual-level surrogate threshold effect (STE) values and related metrics |
| plot.MaxEntContCont |
Plots the sensitivity-based and maximum entropy based Individual Causal Association when S and T are continuous outcomes in the single-trial setting |
| plot.MaxEntICA.BinBin |
Plots the sensitivity-based and maximum entropy based Individual Causal Association when S and T are binary outcomes |
| plot.MaxEntSPF.BinBin |
Plots the sensitivity-based and maximum entropy based surrogate predictive function (SPF) when S and T are binary outcomes. |
| plot.MICA.ContCont |
Plots the (Meta-Analytic) Individual Causal Association when S and T are continuous outcomes |
| plot.MinSurrContCont |
Graphically illustrates the theoretical plausibility of finding a good surrogate endpoint in the continuous-continuous case |
| plot.MixedContContIT |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework |
| plot.PPE.BinBin |
Plots the distribution of either PPE, RPE or R^2_{H} either as a density or as a histogram in the setting where both S and T are binary endpoints |
| plot.PredTrialTContCont |
Plots the expected treatment effect on the true endpoint in a new trial (when both S and T are normally distributed continuous endpoints) |
| plot.Single.Trial.RE.AA |
Conducts a surrogacy analysis based on the single-trial meta-analytic framework |
| plot.SPF.BinBin |
Plots the surrogate predictive function (SPF) in the binary-binary settinf. |
| plot.SPF.BinCont |
Plots the surrogate predictive function (SPF) in the binary-continuous setting. |
| plot.SurvSurv |
Provides plots of trial- and individual-level surrogacy in the Information-Theoretic framework when both S and T are time-to-event endpoints |
| plot.TrialLevelIT |
Provides a plots of trial-level surrogacy in the information-theoretic framework based on the output of the 'TrialLevelIT()' function |
| plot.TrialLevelMA |
Provides a plots of trial-level surrogacy in the meta-analytic framework based on the output of the 'TrialLevelMA()' function |
| plot.TwoStageSurvSurv |
Plots trial-level surrogacy in the meta-analytic framework when two survival endpoints are considered. |
| plot.UnifixedContCont |
Provides plots of trial- and individual-level surrogacy in the meta-analytic framework |
| plot.UnimixedContCont |
Provides plots of trial- and individual-level surrogacy in the meta-analytic framework |
| Pos.Def.Matrices |
Generate 4 by 4 correlation matrices and flag the positive definite ones |
| PPE.BinBin |
Evaluate a surrogate predictive value based on the minimum probability of a prediction error in the setting where both S and T are binary endpoints |
| Pred.TrialT.ContCont |
Compute the expected treatment effect on the true endpoint in a new trial (when both S and T are normally distributed continuous endpoints) |
| Prentice |
Evaluates surrogacy based on the Prentice criteria for continuous endpoints (single-trial setting) |
| PROC.BinBin |
Evaluate the individual causal association (ICA) and reduction in probability of a prediction error (RPE) in the setting where both S and T are binary endpoints |
| Schizo |
Data of five clinical trials in schizophrenia |
| Schizo_Bin |
Data of a clinical trial in Schizophrenia (with binary outcomes). |
| Schizo_BinCont |
Data of a clinical trial in schizophrenia, with binary and continuous endpoints |
| Schizo_PANSS |
Longitudinal PANSS data of five clinical trials in schizophrenia |
| Sim.Data.Counterfactuals |
Simulate a dataset that contains counterfactuals |
| Sim.Data.CounterfactualsBinBin |
Simulate a dataset that contains counterfactuals for binary endpoints |
| Sim.Data.MTS |
Simulates a dataset that can be used to assess surrogacy in the multiple-trial setting |
| Sim.Data.STS |
Simulates a dataset that can be used to assess surrogacy in the single-trial setting |
| Sim.Data.STSBinBin |
Simulates a dataset that can be used to assess surrogacy in the single trial setting when S and T are binary endpoints |
| Single.Trial.RE.AA |
Conducts a surrogacy analysis based on the single-trial meta-analytic framework |
| SPF.BinBin |
Evaluate the surrogate predictive function (SPF) in the binary-binary setting (sensitivity-analysis based approach) |
| SPF.BinCont |
Evaluate the surrogate predictive function (SPF) in the binary-continuous setting (sensitivity-analysis based approach) |
| SurvSurv |
Assess surrogacy for two survival endpoints based on information theory and a two-stage approach |
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