An Infrastructure for Reproducible Exposomic Research

Download item | Update item information
Identifier 003_RR2016_Infrastructure_Reproducible_Exposomic_Research_GOURIPEDDI.pdf
Title An Infrastructure for Reproducible Exposomic Research
Creator Ram Gouripeddi; Phillip Warner; Randy Madsen; Peter Mo; Nicole Burnett; Jingran Wen; Albert Lund; Ryan Butcher; Mollie Cummins; Julio Facelli; Katherine Sward, Department of Biomedical Informatics, University of Utah
Subject Genetics; Epigenetics; Exposomic Research
Description Understanding effects of the modern environment on human health requires generation of a complete picture of environmental exposures, behaviors and socio-economic factors. The concept of an exposome encompasses the life-course of environmental exposures (including lifestyle factors) from prenatal periods and complements the genome by providing a comprehensive description of lifelong exposure history. Exposomic research requires the integration of diverse data types for supporting different research use-cases. While there exist gaps and sparseness in data points needed to generate sufficiently complete exposomes, using available data with an understanding of their limitations could enable reproducibility research. In order to systematically generate air quality exposomes for the Pediatric Research using Integrated Sensor Monitoring Systems (PRISMS) grant, we are developing a scalable computation infrastructure. Eliciting use-cases, we conceptually designed a data model to integrate different types of data as related to individuals and populations. Supporting proper use of such heterogeneous data requires the discovery, storage and presentation of metadata about these data. We use a graph database implementation of OpenFurther's metadata repository for authoring and storage of these metadata. Using the OpenFurther platform we are developing metadata-driven big data infrastructure that generates an event-document store (EDS) of integrated data as needed for different use-cases. The EDS captures the spatio-temporal variations of various events (e.g. air pollutant concentrations, occurrence of conditions), and locations of the individuals and populations. In addition, to fill gaps in measurements and combine different data source we use mathematical models with characterized uncertainties. Our metadata-driven approach ensures reproducibility as it informs the end-user not only on the specifics about the data but also its limitations (including reducible and exposure uncertainties) for using the data in different use-cases. It is generalizable for integrating multi-scale and multi-omics data and provides robust pipeline for reproducible research data delivery. References P. Wild, "The exposome: from concept to utility," Int. J. Epidemiol., vol. 41, no. 1, pp. 24-32, Feb. 2012. An Informatics Architecture for an Exposome, R. Gouripeddi, Session II06 - Secondary Use of Data for Research (Interactive Learning), AMIA 2016 Joint Summits on Translational Science, March 22nd, 2016, San Francisco. https://www.amia.org/sites/default/files/2016-joint-summits-program-book.pdf
Relation is Part of 2016 Research Reproducibility Conference & Lectures
Publisher Spencer S. Eccles Health Sciences Library, University of Utah
Date Digital 2016
Date 2016
Format application/pdf
Rights Management Copyright 2016. For further information regarding the rights to this collection, please visit: https://NOVEL.utah.edu/about/copyright
Language eng
ARK ark:/87278/s64218qj
Setname ehsl_rr
Date Created 2019-02-21
Date Modified 2019-03-04
ID 1400682
Reference URL https://collections.lib.utah.edu/ark:/87278/s64218qj
Back to Search Results