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Introduction to MAIHDA"
In MAIHDA: Multilevel Analysis of Individual Heterogeneity and Discriminatory Accuracy
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>"
)
Introduction
The MAIHDA package provides specialized tools for conducting Multilevel Analysis of Individual Heterogeneity and Discriminatory Accuracy. This modern epidemiological approach is highly effective for investigating intersectional health inequalities and understanding how joint social categories (e.g., Race x Gender x Education) influence individual outcomes.
By utilizing multilevel mixed-effects models (via lme4 or brms), MAIHDA allows researchers to:
1. Automatically construct intersectional strata.
2. Estimate between-stratum variance and Variance Partition Coefficients (VPC).
3. Evaluate the Proportional Change in Variance (PCV) to understand how much inequalities are driven by additive main effects versus unique intersectional effects.
4. Launch an interactive Shiny Dashboard for code-free analysis.
Installation
You can install the development version of MAIHDA from GitHub:
install.packages("MAIHDA")
# Or for the latest development version:
# install.packages("remotes")
# remotes::install_github("hamidbulut/MAIHDA")
Real-World Example Analysis
The package includes a pedagogical subset of the National Health and Nutrition Examination Survey (maihda_health_data). We will use this to examine how Body Mass Index (BMI) varies across intersectional demographic groups.
Step 1: Create Intersectional Strata
First, use make_strata() to combine multiple social categories into a single Random Effect grouping variable:
library(MAIHDA)
# Load the built-in NHANES dataset
data("maihda_health_data")
# Create strata from Gender, Race, and Education
strata_result <- make_strata(maihda_health_data, vars = c("Gender", "Race", "Education"))
# View the strata structural information
print(strata_result)
Step 2: Fit a Null MAIHDA Model
Fit a multilevel model using the generated strata. A "Null" model contains only the intercept and the strata random effect.
# Fit the initial Null model
model_null <- fit_maihda(
BMI ~ 1 + (1 | stratum),
data = strata_result$data,
engine = "lme4"
)
# Summarize the variance components (VPC)
summary_null <- summary_maihda(model_null)
print(summary_null)
Interpretation: The resulting Variance Partition Coefficient (VPC or ICC) tells us what percentage of the total variance in BMI in the population lies between the intersectional social groups, rather than just within them.
Step 3: Evaluate Proportional Change in Variance (PCV)
To understand if these intersectional inequalities are simply the sum of their parts (additive), we evaluate how much variance is explained by adding main-effects to the model.
If the variance drops significantly (High PCV), the inequalities are largely explained by the additive characteristics. If the variance remains or even increases (Negative PCV), it signifies strong, unique intersectional interactions that cannot be explained away by simple main effects.
# Fit an adjusted model
model_adj <- fit_maihda(
BMI ~ Age + Gender + Race + Education + Poverty + (1 | stratum),
data = strata_result$data
)
# Calculate PCV with Parametric Bootstrap Confidence Intervals
pcv_result <- calculate_pvc(model_null, model_adj, bootstrap = TRUE, n_boot = 500)
print(pcv_result)
Step 4: Stepwise PCV Decomposition
Often, researchers want to know exactly which variable explained the variance. Use the stepwise_pcv() function to add covariates one-by-one and track the variance dynamically.
# Run a stepwise variance decomposition
stepwise_results <- stepwise_pcv(
data = strata_result$data,
outcome = "BMI",
vars = c("Age", "Gender", "Race", "Education", "Poverty")
)
print(stepwise_results)
Negative step PCVs in this table highlight "unmasking" or suppression effects: adding a variable caused the intersectional groups to push further apart mathematically, revealing hidden structural inequalities.
Step 5: Visualizations
The package provides multiple pre-configured visualization options for checking your model estimates (using plot_maihda()):
# Caterpillar plot of stratum random effects (with 95% CIs)
plot_maihda(model_adj, type = "caterpillar")
# Variance partition visualization
plot_maihda(model_adj, type = "vpc")
Interactive Shiny App
The MAIHDA package ships with a fully-featured, interactive Shiny Dashboard.
You can upload your own data (CSV, SPSS .sav, Stata .dta), dynamically select variables, and compute Stepwise PCV tables and prediction plots.
# Launch the interactive interface
run_maihda_app()
References
-
Evans, C. R., Williams, D. R., Onnela, J. P., & Subramanian, S. V. (2018). A multilevel approach to modeling health inequalities at the intersection of multiple social identities. Social Science & Medicine, 203, 64-73.
-
Merlo, J. (2018). Multilevel analysis of individual heterogeneity and discriminatory accuracy (MAIHDA) within an intersectional framework. Social Science & Medicine, 203, 74-80.
Try the MAIHDA package in your browser
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MAIHDA documentation built on April 5, 2026, 5:06 p.m.
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knitr::opts_chunk$set( collapse = TRUE, comment = "#>" )
Introduction
The MAIHDA package provides specialized tools for conducting Multilevel Analysis of Individual Heterogeneity and Discriminatory Accuracy. This modern epidemiological approach is highly effective for investigating intersectional health inequalities and understanding how joint social categories (e.g., Race x Gender x Education) influence individual outcomes.
By utilizing multilevel mixed-effects models (via lme4 or brms), MAIHDA allows researchers to:
1. Automatically construct intersectional strata.
2. Estimate between-stratum variance and Variance Partition Coefficients (VPC).
3. Evaluate the Proportional Change in Variance (PCV) to understand how much inequalities are driven by additive main effects versus unique intersectional effects.
4. Launch an interactive Shiny Dashboard for code-free analysis.
Installation
You can install the development version of MAIHDA from GitHub:
install.packages("MAIHDA") # Or for the latest development version: # install.packages("remotes") # remotes::install_github("hamidbulut/MAIHDA")
Real-World Example Analysis
The package includes a pedagogical subset of the National Health and Nutrition Examination Survey (maihda_health_data). We will use this to examine how Body Mass Index (BMI) varies across intersectional demographic groups.
Step 1: Create Intersectional Strata
First, use make_strata() to combine multiple social categories into a single Random Effect grouping variable:
library(MAIHDA) # Load the built-in NHANES dataset data("maihda_health_data") # Create strata from Gender, Race, and Education strata_result <- make_strata(maihda_health_data, vars = c("Gender", "Race", "Education")) # View the strata structural information print(strata_result)
Step 2: Fit a Null MAIHDA Model
Fit a multilevel model using the generated strata. A "Null" model contains only the intercept and the strata random effect.
# Fit the initial Null model model_null <- fit_maihda( BMI ~ 1 + (1 | stratum), data = strata_result$data, engine = "lme4" ) # Summarize the variance components (VPC) summary_null <- summary_maihda(model_null) print(summary_null)
Interpretation: The resulting Variance Partition Coefficient (VPC or ICC) tells us what percentage of the total variance in BMI in the population lies between the intersectional social groups, rather than just within them.
Step 3: Evaluate Proportional Change in Variance (PCV)
To understand if these intersectional inequalities are simply the sum of their parts (additive), we evaluate how much variance is explained by adding main-effects to the model.
If the variance drops significantly (High PCV), the inequalities are largely explained by the additive characteristics. If the variance remains or even increases (Negative PCV), it signifies strong, unique intersectional interactions that cannot be explained away by simple main effects.
# Fit an adjusted model model_adj <- fit_maihda( BMI ~ Age + Gender + Race + Education + Poverty + (1 | stratum), data = strata_result$data ) # Calculate PCV with Parametric Bootstrap Confidence Intervals pcv_result <- calculate_pvc(model_null, model_adj, bootstrap = TRUE, n_boot = 500) print(pcv_result)
Step 4: Stepwise PCV Decomposition
Often, researchers want to know exactly which variable explained the variance. Use the stepwise_pcv() function to add covariates one-by-one and track the variance dynamically.
# Run a stepwise variance decomposition stepwise_results <- stepwise_pcv( data = strata_result$data, outcome = "BMI", vars = c("Age", "Gender", "Race", "Education", "Poverty") ) print(stepwise_results)
Negative step PCVs in this table highlight "unmasking" or suppression effects: adding a variable caused the intersectional groups to push further apart mathematically, revealing hidden structural inequalities.
Step 5: Visualizations
The package provides multiple pre-configured visualization options for checking your model estimates (using plot_maihda()):
# Caterpillar plot of stratum random effects (with 95% CIs) plot_maihda(model_adj, type = "caterpillar") # Variance partition visualization plot_maihda(model_adj, type = "vpc")
Interactive Shiny App
The MAIHDA package ships with a fully-featured, interactive Shiny Dashboard.
You can upload your own data (CSV, SPSS .sav, Stata .dta), dynamically select variables, and compute Stepwise PCV tables and prediction plots.
# Launch the interactive interface run_maihda_app()
References
-
Evans, C. R., Williams, D. R., Onnela, J. P., & Subramanian, S. V. (2018). A multilevel approach to modeling health inequalities at the intersection of multiple social identities. Social Science & Medicine, 203, 64-73.
-
Merlo, J. (2018). Multilevel analysis of individual heterogeneity and discriminatory accuracy (MAIHDA) within an intersectional framework. Social Science & Medicine, 203, 74-80.
Try the MAIHDA package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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