CausalGPS

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Matching on generalized propensity scores with continuous exposures

Summary

CausalGPS is an R package that implements matching on generalized propensity scores with continuous exposures. The package introduces a novel approach for estimating causal effects using observational data in settings with continuous exposures, and a new framework for GPS caliper matching that jointly matches on both the estimated GPS and exposure levels to fully adjust for confounding bias.

Installation

library("devtools")
install_github("NSAPH-Software/CausalGPS")
library("CausalGPS")
install.packages("CausalGPS")

Developing Docker image can be downloaded from Docker Hub. See more details in docker_singularity.

Usage

The CausalGPS package encompasses two primary stages: Design and Analysis. The Design stage comprises estimating GPS values, generating weights or counts of matched data, and evaluating the generated population. The Analysis stage is focused on estimating the exposure-response function. The following figure represents the process workflow

Processing flow

Estimating GPS values

GPS values can be estimated using two distinct approaches: kernel and normal.

set.seed(967)
m_d <- generate_syn_data(sample_size = 500)

m_xgboost <- function(nthread = 1,
                      ntrees = 35,
                      shrinkage = 0.3,
                      max_depth = 5,
                      ...) {SuperLearner::SL.xgboost(
                        nthread = nthread,
                        ntrees = ntrees,
                        shrinkage=shrinkage,
                        max_depth=max_depth,
                        ...)}

gps_obj <- estimate_gps(.data = m_d,
                        .formula = w ~ I(cf1^2) + cf2 + I(cf3^2) + cf4 + cf5 + cf6,
                        sl_lib = c("m_xgboost"),
                        gps_density = "normal")

where

Computing weight or count of matched data

The second step in processing involves computing the weight or count of matched data. For the former, the weighting approach is used, and for the latter, the matching approach.

cw_object_matching <- compute_counter_weight(gps_obj = gps_obj,
                                             ci_appr = "matching",
                                             bin_seq = NULL,
                                             nthread = 1,
                                             delta_n = 0.1,
                                             dist_measure = "l1",
                                             scale = 0.5)
                                             

where

If ci.appr = matching:
- dist_measure: Distance measuring function. Available options:
- l1: Manhattan distance matching
- delta_n: caliper parameter.
- scale: a specified scale parameter to control the relative weight that is attributed to the distance measures of the exposure versus the GPS.

Estimating psuedo population

The pseudo population is created by combining the counter_weight of data samples with the original data, including the outcome variable.

pseudo_pop_matching <- generate_pseudo_pop(.data = m_d,
                                            cw_obj = cw_object_matching,
                                            covariate_col_names = c("cf1", "cf2", "cf3",
                                                                    "cf4", "cf5", "cf6"),
                                            covar_bl_trs = 0.1,
                                            covar_bl_trs_type = "maximal",
                                            covar_bl_method = "absolute")

where

Estimating exposure response function

The exposure-response function can be computed using parametric, semiparametric, and nonparametric approaches.

erf_obj_nonparametric <- estimate_erf(.data = pseudo_pop_matching$.data,
                                       .formula = Y ~ w,
                                       weights_col_name = "counter_weight",
                                       model_type = "nonparametric",
                                       w_vals = seq(2,20,0.5),
                                       bw_seq = seq(0.2,2,0.2),
                                       kernel_appr = "kernsmooth")
                                       

where

Notes

trimmed_data <- trim_it(data_obj = m_d,
                        trim_quantiles = c(0.05, 0.95),
                        variable = "w")
m_xgboost <- function(nthread = 1,
                      ntrees = 35,
                      shrinkage = 0.3,
                      max_depth = 5,
                      ...) {SuperLearner::SL.xgboost(
                        nthread = nthread,
                        ntrees = ntrees,
                        shrinkage=shrinkage,
                        max_depth=max_depth,
                        ...)}
syn_data <- generate_syn_data(sample_size=1000,
                              outcome_sd = 10,
                              gps_spec = 1,
                              cova_spec = 1)

Contribution

For more information about reporting bugs and contribution, please read the contribution page from the package web page.

Code of Conduct

Please note that the CausalGPS project is released with a Contributor Code of Conduct. By contributing to this project, you agree to abide by its terms.

References

@article{wu2022matching,
  title={Matching on generalized propensity scores with continuous exposures},
  author={Wu, Xiao and Mealli, Fabrizia and Kioumourtzoglou, Marianthi-Anna and Dominici, Francesca and Braun, Danielle},
  journal={Journal of the American Statistical Association},
  pages={1--29},
  year={2022},
  publisher={Taylor \& Francis}
}
@misc{khoshnevis2023causalgps,
      title={CausalGPS: An R Package for Causal Inference With Continuous Exposures}, 
      author={Naeem Khoshnevis and Xiao Wu and Danielle Braun},
      year={2023},
      eprint={2310.00561},
      archivePrefix={arXiv},
      primaryClass={stat.CO},
      DOI={h10.48550/arXiv.2310.00561}
}

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