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Marginal analysis of bivariate mixed responses with measurement error and misclassification.

Qihuang ZhangGrace Y Yi
Published in: Statistical methods in medical research (2021)
Bivariate responses with mixed continuous and binary variables arise commonly in applications such as clinical trials and genetic studies. Statistical methods based on jointly modeling continuous and binary variables have been available. However, such methods ignore the effects of response mismeasurement, a ubiquitous feature in applications. It has been well studied that in many settings, ignorance of mismeasurement in variables usually results in biased estimation. In this paper, we consider the setting with a bivariate outcome vector which contains a continuous component and a binary component both subject to mismeasurement. We propose estimating equation approaches to handle measurement error in the continuous response and misclassification in the binary response simultaneously. The proposed estimators are consistent and robust to certain model misspecification, provided regularity conditions. Extensive simulation studies confirm that the proposed methods successfully correct the biases resulting from the error-in-variables under various settings. The proposed methods are applied to analyze the outbred Carworth Farms White mice data arising from a genome-wide association study.
Keyphrases
  • clinical trial
  • ionic liquid
  • genome wide association study
  • machine learning
  • randomized controlled trial
  • metabolic syndrome
  • deep learning
  • case control
  • skeletal muscle
  • data analysis
  • finite element