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precmed

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Overview

precmed was developed to help researchers with the implementation of precision medicine in R. A key objective of precision medicine is to determine the optimal treatment separately for each patient instead of applying a common treatment to all patients. Personalizing treatment decisions becomes particularly relevant when treatment response differs across patients, or when patients have different preferences about benefits and harms. This package offers statistical methods to develop and validate prediction models for estimating individualized treatment effects. These treatment effects are also known as the conditional average treatment effects (CATEs) and describe how different subgroups of patients respond to the same treatment. Presently, precmed focuses on the personalization of two competitive treatments using randomized data from a clinical trial (Zhao et al. 2013) or using real-world data (RWD) from a non-randomized study (Yadlowsky et al. 2020).

Installation

The precmed package can be installed from CRAN as follows:

install.packages("precmed")

The latest version can be installed from GitHub as follows:

install.packages("devtools")
devtools::install_github(repo = "smartdata-analysis-and-statistics/precmed")

Package capabilities

The main functions in the precmed package are:

Function Description
catefit() Estimation of the conditional average treatment effect (CATE)
atefit() Doubly robust estimator for the average treatment effect (ATE)
catecv() Development and cross-validation of the CATE
abc() Compute the area between the average treatment difference curve of competing models for the CATE (Zhao et al. 2013)
plot() Two side-by-side line plots of validation curves from the precmed object
boxplot() Plot the proportion of subjects with an estimated treatment effect no less than \(c\) over a range of values for \(c\) (Zhao et al. 2013).

For more info: https://smartdata-analysis-and-statistics.github.io/precmed/

We recommend the following workflow to develop a model for estimating the CATE in order to identify treatment effect heterogeneity:

  1. Compare up to five modelling approaches (e.g., Poisson regression, boosting) for estimating the CATE using cross-validation through catecv.
  2. Select the best modelling approach using 3 metrics:
  3. Apply the best modelling approach in the original data or in a new external dataset using catefit().
  4. Optional. Use atefit() to estimate ATE between 2 treatment groups with a doubly robust estimator and estimate the variability of the ATE with a bootstrap approach.

In the vignettes, we will adopt a different workflow to gradually expose the user from simple to more complex methods.

User input

When applying catefit() or catecv(), the user has to (at least) input:

Vignettes

  1. Examples with count outcome of the entire workflow
  2. Examples with survival outcome of the entire workflow
  3. Additional examples for the precmed package
  4. Theoretical details

References

Yadlowsky, Steve, Fabio Pellegrini, Federica Lionetto, Stefan Braune, and Lu Tian. 2020. “Estimation and Validation of Ratio-Based Conditional Average Treatment Effects Using Observational Data.” Journal of the American Statistical Association, 1–18.
Zhao, Lihui, Lu Tian, Tianxi Cai, Brian Claggett, and Lee-Jen Wei. 2013. “Effectively Selecting a Target Population for a Future Comparative Study.” Journal of the American Statistical Association 108 (502): 527–39. https://doi.org/10.1080/01621459.2013.770705.

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.