Technologies to Enable Privacy in Biomedical Databanks
Vanderbilt University, Nashville TN
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): The biomedical community is in the midst of a genomics revolution with the potential to personalize healthcare services to a patient's genome. To capitalize on recent genomics programs, scientists have initiated research to discover relationships between an individual's genomic variations and clinical phenotype. Most of the gathering and analysis of person-specific records has been localized to particular investigators or institutions;however, scientists need to share data collections to strengthen the statistical power of association tests, to allow others the opportunity to verify their analyses, and to comply with policy requirements. To facilitate this process, various organizations around the world are significantly investing in databanks to consolidate patient- specific records from disparate investigators. The availability of such databanks for wide-spread use is contingent on protecting the anonymity of the individuals that correspond to the shared records. Though policy and technical approaches for biomedical records privacy exist, they are inappropriate for environments that consolidate records from multiple organizations. In particular, various investigations demonstrate that the simple de-identification of person-specific biomedical records leave centralized records vulnerable to "re- identification" through public resources. The overarching goal of our research is to develop a novel data protection model for centralized person-specific biomedical records based on formal privacy and security methods. Our solution will be composed of a suite of technologies, each of which addresses a challenge for the construction, and use, of biomedical databanks. These technologies will be developed in three specific aims: (1) build a tool to integrate research participants'biomedical records from disparate organizations without compromising participants'anonymity, (2) construct methods to securely collect, store, and analyze biomedical data without revealing individual records, and (3) detect and prevent policy violations that can arise as a consequence of investigators queries to the databank. Our methods will be implemented in software that shields scientists and administrators from handling the technical details of unfamiliar privacy and security protocols. The final product will be software that enables disparate data holders to submit information to a centralized biomedical databank, scientists to analyze the stored records, and administrators to monitor the use of system for privacy violations. The software will be designed in a modular and configurable manner, thus enabling users to pick and choose which protection features are most appropriate to their environment. To demonstrate the applicability of our methodology, this research will specifically address a real world data privacy challenge that is a bottleneck for multi-institutional genome wide association studies, but the resulting models and software will be reusable for other centralized databanking environments. We believe that by managing biomedical records through formal privacy protection mechanisms, databanks based on our model will be able to support research with greater throughput than the current status quo.
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