Mixed Effect Model for Repeated Measures (MMRM)
What is it?
An MMRM is a statistical technique used to analyse data collected from the same subjects at multiple time points. It is commonly used in clinical trials where each participant's response is measured several times throughout the study. The software will estimate "random effects" (which you won't typically care about in a clinical trial) in addition to the fixed effects of covariates and factors (which will be your primary interest), hence the name "mixed effects"
Why Use MMRM?
In clinical trials, measurements are often taken on the same subjects over time, leading to correlated data within subjects. Traditional methods like simple ANOVA are not appropriate because they assume measurements are independent. MMRMs handles this by accounting for the within-subject correlation (by estimating a variance for the random effect of subjects), providing a more accurate and reliable analysis of the data.
Covariate and Factors
Covariate: This is a variable that's (usually) not of primary interest but may influence the outcome, such as a confounder or baseline measurements. In your case, 'baseline area under the curve' is used as a covariate, meaning the analysis adjusts for this variable to isolate the effect of the treatment.
Factors: These are usually the primary variables of interest. Treatment group and minutes post-challenge are the factors here, indicating that the analysis is investigating how these variables affect the outcome.
Note that this distinction between covariates and factors is not universally used. They are both simply variables in a model.
Generalized Estimating Equation (GEE) Procedure
What is GEE?
GEE is another statistical method for analyzing correlated data, like in longitudinal studies where responses are measured over time. It's particularly useful for comparing groups (e.g., treatment vs. control) in terms of response proportions or other outcomes.
Application in the Study
The study uses GEE to compare responder proportions (how many patients responded to treatment) between different treatment groups over time. Like MMRM, GEE accounts for the fact that data from the same subject are correlated.
Why Use GEE?
GEE is robust and provides valid results even if the correlation structure is not perfectly known. It's effective for analyzing binary outcomes (like responder/non-responder) or counts, which seem to be the case in the study.
Intuition Behind Using These Methods
Correlated Data: Both MMRM and GEE are chosen because data from the same subjects over time are correlated. Traditional methods assuming independent observations would be inadequate and potentially misleading.
Adjustment for Covariates: Adjusting for covariates like baseline measurements ensures that the analysis accounts for individual differences that could affect the response to the treatment.
Comparing Groups Over Time: Both methods allow for the comparison of treatment effects over time, which is crucial in assessing the effectiveness of a medical treatment in clinical trials.
How to choose between MMRM and GEE ?
Broadly speaking, GEE is indicated when our interest lies in uncovering the population average effect of a factor rather than the individual specific effect, which is what mixed models estimate. Note that in the case of linear models (where we typically have a numeric outcome variable), both MMRM and GEE should produce the same results, whereas in nonlinear models (such as a logistic model where the outcome is binary), the results will differ, so which model to use will be determined by whether you want to estimate the population average effect, or the individual effect.
