About interactionR

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InteractionR allows researchers to produce publication-ready tables that includes all effect estimates necessary for full reporting effect modification and interaction analysis as recommended by Knol and Vanderweele (2012) (doi:10.1093/ije/dyr218). It also estimates confidence interval for the trio of additive interaction measures using the delta method (Hosmer and Lemeshow (1992), doi:10.1097/00001648-199209000-00012), variance recovery method (Zou (2008), doi:10.1093/aje/kwn104), or percentile bootstrapping (Assmann et al. (1996), doi:10.1097/00001648-199605000-00012).

Installation

interactionR is on CRAN, install using install.packages("interactionR").

You can also install the development version from GitHub with:

# install.packages("devtools")
devtools::install_github("tunsmart/interactionR")

Implementation

interactionR is implemented in the R statistical software environment; R is installable from https://www.r-project.org/. The main user-facing function of the package, interactionR(), accepts the following arguments:

Example: The joint effect of alcohol and smoking on oral cancer.

Consider the case-control data from Rothman and Keller (1979) [doi: 10.1016/0021-9681(72)90006-9], which studied the joint effect of alcohol and smoking on oral cancers. This dataset was used previously by Hosmer and Lemeshow, and Zou and its included in our package as ‘OCdata’ for easy replication of our analysis by the user. It contains the two exposures, alcohol (‘alc’) and smoking (‘smk’), and the outcome, oral cancer (‘oc’) as dichotomous variables (0 or 1, indicating absence or presence respectively). Suppose we are considering interaction and we want to compute the CIs for the measures of additive interaction using the MOVER method, we will start by fitting the following logistic regression model with an interaction term for alcohol and smoking on oral cancer:

library(interactionR)
data (OCdata)

## fit the interaction model
model.glm <- glm(oc ~ alc*smk, family = binomial(link = "logit"), data = OCdata)

Then, pass the fitted model to the function which generates a list object of class ‘interactionR’

table_object = interactionR(model.glm, exposure_names = c("alc", "smk"), ci.type = "mover", ci.level = 0.95, em = F, recode = F)

This returns a list object of class interactionR which includes a dataframe containing all the effect estimates that are necessary to fully report effect modification or interaction. This data frame and other components of the list are accessible to the user for further manipulation, if desired. Importantly, the output object is formatted in such a way that the data frame can be processed by the tabling function interactionR_table(). An example is:

interactionR_table(table_object)

The tabling function will generate and save a publication-ready table as a word document to the user’s working directory, if desired. The returned point estimate and CI for RERI (3.74; 95% CI: -11.43, 21.87) is as reported by Zou for this data (13) – If the ‘ci.type’ argument in the interactionR() call had been set to “delta”, the CIs for this trio of interaction measures would be as reported by Hosmer and Lemeshow.

In addition to the main function described above, the package also provides standalone functions for each of the CI estimating methods: interactionR_mover(), interactionR_delta(), and interactionR_boot(). The latter implements the percentile bootstrapping of CIs of additive interaction measures as described by Assmann et al, with usage shown in the next example.

Example 2: Effect of sports participation and smoking on herniated lumbar disc.

To illustrate the interactionR_boot() function, consider the case-control data of the effect of sports participation and smoking on herniated lumbar disc examined by Assmann et al. in their analysis. The dataset is available in the package as ‘HDiscdata’ and contains three binary variables: i) the outcome. herniated lumbar disc, ‘h’; and ii & iii) the exposures sports participation, ‘ns’, and smoking ‘smk’. The function accepts the following arguments:

Again, we start by fitting a logistic regression model:

data(HDiscdata)
m2 = glm(h ~ ns*smk, family = binomial(link = 'logit'), data = HDiscdata)

Then, pass the object to the interactionR_boot() function as follows:

table_object2 = interactionR_boot(m2, ci.level = 0.95, em = F, recode = F, seed = 12345, s = 1000)
Loading required namespace: boot

This runs a non-parametric bootstrap sample 1000 times with replacements and a percentile CI. The function also returns a list object of class interactionR containing all the desired estimates and manipulable by the tabling function - interactionR_table() - described earlier. Calling interactionR_table() on the returned object produces a publication-ready table with estimates for the CI of RERI and AP similar to that reported by Assmann et al. for this data.

interactionR_table(table_object2)

Furthermore, some base R functions are available to the user to further manipulate some parts of the output object from interactionR_boot(). A simple example is:

hist(table_object2$bootstrap)

This produce histograms of the distribution of each of the three bootstrapped parameters (RERI, AP and SI), allowing the user to inspect the overall performance and accuracy of the returned estimates.

To cite

Cite as: Babatunde Y. Alli (2021). InteractionR: An R package for full reporting of effect modification and interaction. Software Impacts, 10, 100147. doi:10.1016/j.simpa.2021.100147

Community guidelines

To contribute

For contribute to interactionR please feel free to fork the branch and send me pull requests. Currently, only the master branch is used for both development and releases.

To report problems, bugs or issues

Please use interactionR issues here on Github.

To get support

Please consult the help files for the package within R or contact the maintainer at babatunde.alli [at] mail.mcgill.ca