Abstract
Clustered data arise frequently in many practical applications whenever units are repeatedly observed under a certain condition. One typical example for clustered data are animal experiments, where several animals share the same cage and should not be assumed to be completely independent. Standard methods for the analysis of such data are Linear Mixed Models and Generalized Estimating Equations—however, checking their assumptions is not easy, especially in scenarios with small sample sizes, highly skewed, count, and ordinal or binary data. In such situations, Wilcoxon–Mann–Whitney type effects are suitable alternatives to mean-based or other distributional approaches. Hence, no specific data distribution, symmetric or asymmetric, is required. Within this work, we will present different estimation techniques of such effects in clustered factorial designs and discuss quadratic- and multiple contrast type-testing procedures for hypotheses formulated in terms of Wilcoxon–Mann–Whitney effects. Additionally, the framework allows for the occurrence of missing data: estimation and testing hypotheses are based on all-available data instead of complete-cases. An extensive simulation study investigates the precision of the estimators and the behavior of the test procedures in terms of their type-I error control. One real world dataset exemplifies the applicability of the newly proposed procedures.
Highlights
Publisher’s Note: MDPI stays neutralClustered data are commonly encountered in medical research and various disciplines and occur whenever a subject is observed once under a certain condition, but multiple times
We further introduce different statistical inference methods for testing hypotheses formulated in terms of these effects
An overview of the impact of different sample sizes in scenarios with completely observed data is given in Figure 1 if no missing values occur
Summary
Publisher’s Note: MDPI stays neutralClustered data are commonly encountered in medical research and various disciplines and occur whenever a subject is observed once under a certain condition, but multiple times. Animals sharing the same cage, students in classes, skin irritations, etc., are different examples of clustered data. In these situations, subjects provide multiple possibly dependent observations (not necessarily sized). Estimation of treatment effects becomes an issue because of presence of intra-cluster correlations and unequally sized clusters, see, e.g., Gao [4]. Under certain assumptions such as multivariate normality and linear relationships, Linear Mixed Models and Generalized Estimating Equations with regard to jurisdictional claims in published maps and institutional affiliations
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