https://github.com/nhejazi/medoutcon

:package: R/medoutcon: Efficient Causal Mediation Analysis with Natural and Interventional Direct/Indirect Effects
https://github.com/nhejazi/medoutcon

causal-inference causal-machine-learning inverse-probability-weights machine-learning mediation-analysis r r-package stochastic-interventions targeted-learning treatment-effects

Last synced: 17 days ago
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:package: R/medoutcon: Efficient Causal Mediation Analysis with Natural and Interventional Direct/Indirect Effects

• Host: GitHub
• URL: https://github.com/nhejazi/medoutcon
• Owner: nhejazi
• License: other
• Created: 2019-04-07T01:13:19.000Z (over 5 years ago)
• Default Branch: master
• Last Pushed: 2024-03-18T15:08:00.000Z (10 months ago)
• Last Synced: 2024-04-15T09:12:44.621Z (9 months ago)
• Topics: causal-inference, causal-machine-learning, inverse-probability-weights, machine-learning, mediation-analysis, r, r-package, stochastic-interventions, targeted-learning, treatment-effects
• Language: R
• Homepage: https://codex.nimahejazi.org/medoutcon
• Size: 824 KB
• Stars: 11
• Watchers: 8
• Forks: 4
• Open Issues: 2
• Metadata Files:
  • Readme: README.Rmd
  • Contributing: CONTRIBUTING.md
  • License: LICENSE

Awesome Lists containing this project

README

        
---

output:

  rmarkdown::github_document

bibliography: "inst/REFERENCES.bib"

---

```{r, echo = FALSE}

knitr::opts_chunk$set(

  collapse = TRUE,

  comment = "#>",

  fig.path = "README-"

)

```

# R/`medoutcon`

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> Efficient Causal Mediation Analysis for the Natural and Interventional Effects

__Authors:__ [Nima Hejazi](https://nimahejazi.org), [Iván

Díaz](https://idiaz.xyz), and [Kara

Rudolph](https://kararudolph.github.io/)

---

## What's `medoutcon`?

The `medoutcon` R package provides facilities for efficient estimation of

path-specific (in)direct effects that measure the impact of a treatment variable

$A$ on an outcome variable $Y$, through a direct path (through $A$ only) and an

indirect path (through a set of mediators $M$ only). In the presence of an

intermediate mediator-outcome confounder $Z$, itself

affected by the treatment $A$, these correspond to the _interventional_

(in)direct effects described by @diaz2020nonparametric, though similar (yet less

general) effect definitions and/or estimation strategies have appeared i`n

@`vanderweele2014effect, @rudolph2017robust, @zheng2017longitudinal, and

@benkeser2020nonparametric. When no intermediate confounders are present, these

effect definitions simplify to the well-studied _natural_ (in)direct effects,

and our estimators are analogs of those formulated by @zheng2012targeted.  Both

an efficient one-step bias-corrected estimator with cross-fitting

[@pfanzagl1985contributions; @zheng2011cross; @chernozhukov2018double] and a

cross-validated targeted minimum loss estimator (TMLE) [@vdl2011targeted;

@zheng2011cross] are made available. `medoutcon` integrates with the [`sl3` R

package](https://github.com/tlverse/sl3) [@coyle-gh-sl3] to leverage statistical

machine learning in the estimation procedure.

---

## Installation

Install the most recent _stable release_ from GitHub via

[`remotes`](https://CRAN.R-project.org/package=remotes):

```{r gh-master-installation, eval=FALSE}

remotes::install_github("nhejazi/medoutcon")

```

---

## Example

To illustrate how `medoutcon` may be used to estimate stochastic interventional

(in)direct effects of the exposure (`A`) on the outcome (`Y`) in the presence of

mediator(s) (`M`) and a mediator-outcome confounder (`Z`), consider the

following example:

```{r example, warning=FALSE, message=FALSE}

library(data.table)

library(tidyverse)

library(medoutcon)

set.seed(1584)

# produces a simple data set based on ca causal model with mediation

make_example_data <- function(n_obs = 1000) {

  ## baseline covariates

  w_1 <- rbinom(n_obs, 1, prob = 0.6)

  w_2 <- rbinom(n_obs, 1, prob = 0.3)

  w_3 <- rbinom(n_obs, 1, prob = pmin(0.2 + (w_1 + w_2) / 3, 1))

  w <- cbind(w_1, w_2, w_3)

  w_names <- paste("W", seq_len(ncol(w)), sep = "_")

  ## exposure

  a <- as.numeric(rbinom(n_obs, 1, plogis(rowSums(w) - 2)))

  ## mediator-outcome confounder affected by treatment

  z <- rbinom(n_obs, 1, plogis(rowMeans(-log(2) + w - a) + 0.2))

  ## mediator -- could be multivariate

  m <- rbinom(n_obs, 1, plogis(rowSums(log(3) * w[, -3] + a - z)))

  m_names <- "M"

  ## outcome

  y <- rbinom(n_obs, 1, plogis(1 / (rowSums(w) - z + a + m)))

  ## construct output

  dat <- as.data.table(cbind(w = w, a = a, z = z, m = m, y = y))

  setnames(dat, c(w_names, "A", "Z", m_names, "Y"))

  return(dat)

}

# set seed and simulate example data

example_data <- make_example_data()

w_names <- str_subset(colnames(example_data), "W")

m_names <- str_subset(colnames(example_data), "M")

# quick look at the data

head(example_data)

# compute one-step estimate of the interventional direct effect

os_de <- medoutcon(

  W = example_data[, ..w_names],

  A = example_data$A,

  Z = example_data$Z,

  M = example_data[, ..m_names],

  Y = example_data$Y,

  effect = "direct",

  estimator = "onestep"

)

os_de

# compute targeted minimum loss estimate of the interventional direct effect

tmle_de <- medoutcon(

  W = example_data[, ..w_names],

  A = example_data$A,

  Z = example_data$Z,

  M = example_data[, ..m_names],

  Y = example_data$Y,

  effect = "direct",

  estimator = "tmle"

)

tmle_de

```

For details on how to use data adaptive regression (machine learning) techniques

in the estimation of nuisance parameters, consider consulting the vignette that

accompanies the package.

---

## Issues

If you encounter any bugs or have any specific feature requests, please [file an

issue](https://github.com/nhejazi/medoutcon/issues).

---

## Contributions

Contributions are very welcome. Interested contributors should consult our

[contribution

guidelines](https://github.com/nhejazi/medoutcon/blob/master/CONTRIBUTING.md)

prior to submitting a pull request.

---

## Citation

After using the `medoutcon` R package, please cite the following:

        @article{diaz2020nonparametric,

          title={Non-parametric efficient causal mediation with intermediate

            confounders},

          author={D{\'\i}az, Iv{\'a}n and Hejazi, Nima S and Rudolph, Kara E

            and {van der Laan}, Mark J},

          year={2020},

          url = {https://arxiv.org/abs/1912.09936},

          doi = {10.1093/biomet/asaa085},

          journal={Biometrika},

          volume = {108},

          number = {3},

          pages = {627--641},

          publisher={Oxford University Press}

        }

        @article{hejazi2022medoutcon-joss,

          author = {Hejazi, Nima S and Rudolph, Kara E and D{\'\i}az,

            Iv{\'a}n},

          title = {{medoutcon}: Nonparametric efficient causal mediation

            analysis with machine learning in {R}},

          year = {2022},

          doi = {10.21105/joss.03979},

          url = {https://doi.org/10.21105/joss.03979},

          journal = {Journal of Open Source Software},

          publisher = {The Open Journal}

        }

        @software{hejazi2022medoutcon-rpkg,

          author={Hejazi, Nima S and D{\'\i}az, Iv{\'a}n and Rudolph, Kara E},

          title = {{medoutcon}: Efficient natural and interventional causal

            mediation analysis},

          year  = {2022},

          doi = {10.5281/zenodo.5809519},

          url = {https://github.com/nhejazi/medoutcon},

          note = {R package version 0.1.6}

        }

---

## License

© 2020-2022 [Nima S. Hejazi](https://nimahejazi.org)

The contents of this repository are distributed under the MIT license. See below

for details:

```

MIT License

Copyright (c) 2020-2022 Nima S. Hejazi

Permission is hereby granted, free of charge, to any person obtaining a copy

of this software and associated documentation files (the "Software"), to deal

in the Software without restriction, including without limitation the rights

to use, copy, modify, merge, publish, distribute, sublicense, and/or sell

copies of the Software, and to permit persons to whom the Software is

furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all

copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR

IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,

FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE

AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER

LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,

OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE

SOFTWARE.

```

---

## References