Title: A Secure and Reusable Software Architecture for Supporting Online Data Harmonization.

Authors: Feric, Zlatan; Bohm Agostini, Nicolas; Beene, Daniel; Signes-Pastor, Antonio J; Halchenko, Yuliya; Watkins, Deborah; MacKenzie, Debra; Karagas, Margaret; Manjourides, Justin; Alshawabkeh, Akram; Kaeli, David

Published In Proc IEEE Int Conf Big Data, (2021 Dec)

Abstract: Retrospective data harmonization across multiple research cohorts and studies is frequently done to increase statistical power, provide comparison analysis, and create a richer data source for data mining. However, when combining disparate data sources, harmonization projects face data management and analysis challenges. These include differences in the data dictionaries and variable definitions, privacy concerns surrounding health data representing sensitive populations, and lack of properly defined data models. With the availability of mature open-source web-based database technologies, developing a complete software architecture to overcome the challenges associated with the harmonization process can alleviate many roadblocks. By leveraging state-of-the-art software engineering and database principles, we can ensure data quality and enable cross-center online access and collaboration. This paper outlines a complete software architecture developed and customized using the Django web framework, leveraged to harmonize sensitive data collected from three NIH-support birth cohorts. We describe our framework and show how we successfully overcame challenges faced when harmonizing data from these cohorts. We discuss our efforts in data cleaning, data sharing, data transformation, data visualization, and analytics, while reflecting on what we have learned to date from these harmonized datasets.

PubMed ID: 35449545

MeSH Terms: No MeSH terms associated with this publication