Covariate Microaggregation for Logistic Regression: An Application for Analysis of Confidential Data (1603.05341v1)

Abstract: In the recent past, electronic health records and distributed data networks emerged as a viable resource for medical and scientific research. As the use of confidential patient information from such sources become more common, maintaining privacy of patients is of utmost importance. For a binary disease outcome of interest, we show that the techniques of microaggregation (equivalent to specimen pooling) and \underline{Po}oled \underline{Lo}gistic \underline{R}egression (PoLoR) could be applied for analysis of large and/or distributed data while respecting patient privacy. PoLoR is exactly the same as standard logistic regression, but instead of using individual covariate level, the analysis uses microaggregated covariate level when microaggregation is conditional on the outcome status. Aggregate levels of covariates can be passed from the nodes of the network to the analysis center without revealing individual-level microdata and can be used very easily with standard softwares for estimation of disease odds ratio associated with a set of categorical or continuous covariates. Microaggregation of covariates allows for consistent estimation of the parameters of logistic regression model that can include confounders and transformation of exposure. Additionally, since the microdata can be accessed within nodes, effect modifiers can be accommodated and consistently estimated. For analysis of confidential health data, covariate microaggregation for logistic regression will provide a practical and straightforward alternative to more complicated existing options.