Abstract
BackgroundAn assumption in many analyses of longitudinal patient-reported outcome (PRO) data is that there is a single population following a single health trajectory. One approach that may help researchers move beyond this traditional assumption, with its inherent limitations, is growth mixture modelling (GMM), which can identify and assess multiple unobserved trajectories of patients’ health outcomes. We describe the process that was undertaken for a GMM analysis of longitudinal PRO data captured by a clinical registry for outpatients with atrial fibrillation (AF).MethodsThis expository paper describes the modelling approach and some methodological issues that require particular attention, including (a) determining the metric of time, (b) specifying the GMMs, and (c) including predictors of membership in the identified latent classes (groups or subtypes of patients with distinct trajectories). An example is provided of a longitudinal analysis of PRO data (patients’ responses to the Atrial Fibrillation Effect on QualiTy-of-Life (AFEQT) Questionnaire) collected between 2008 and 2016 for a population-based cardiac registry and deterministically linked with administrative health data.ResultsIn determining the metric of time, multiple processes were required to ensure that “time” accounted for both the frequency and timing of the measurement occurrences in light of the variability in both the number of measures taken and the intervals between those measures. In specifying the GMM, convergence issues, a common problem that results in unreliable model estimates, required constrained parameter exploration techniques. For the identification of predictors of the latent classes, the 3-step (stepwise) approach was selected such that the addition of predictor variables did not change class membership itself.ConclusionsGMM can be a valuable tool for classifying multiple unique PRO trajectories that have previously been unobserved in real-world applications; however, their use requires substantial transparency regarding the processes underlying model building as they can directly affect the results and therefore their interpretation.
Highlights
An assumption in many analyses of longitudinal patient-reported outcome (PRO) data is that there is a single population following a single health trajectory
One promising approach that can be used to identify multiple unique PRO trajectories in heterogeneous clinical populations is Growth mixture modelling (GMM; a.k.a. latent variable mixture models), which is suitable when subgroups of patients with different trajectories are expected and grouping variables are not known a priori. This is an expository paper that demonstrates the use of growth mixture modelling (GMM) and the steps that were taken in an analysis of longitudinal PRO data captured by a clinical registry for outpatients with atrial fibrillation (AF)
We present lessons learned from our experience in analysing repeated PROs collected for a population-based clinical registry of outpatients with AF
Summary
An assumption in many analyses of longitudinal patient-reported outcome (PRO) data is that there is a single population following a single health trajectory. One promising approach that can be used to identify multiple unique PRO trajectories in heterogeneous clinical populations is Growth mixture modelling (GMM; a.k.a. latent variable mixture models), which is suitable when subgroups of patients with different trajectories are expected and grouping variables are not known a priori. This is an expository paper that demonstrates the use of GMM and the steps that were taken in an analysis of longitudinal PRO data captured by a clinical registry for outpatients with atrial fibrillation (AF)
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