Browsing by Author "Tachinardi, Umberto"

Now showing 1 - 4 of 4
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    Effect of the Affordable Care Act on diabetes care at major health centers: newly detected diabetes and diabetes medication management
    (BMJ, 2021-06) Furmanchuk, Al'ona; Liu, Mei; Song, Xing; Waitman, Lemuel R.; Meurer, John R.; Osinski, Kristen; Stoddard, Alexander; Chrischilles, Elizabeth; McClay, James C.; Cowell, Lindsay G.; Tachinardi, Umberto; Embi, Peter J.; Mosa, Abu Saleh Mohammad; Mandhadi, Vasanthi; Shah, Raj C.; Garcia, Diana; Angulo, Francisco; Patino, Alejandro; Trick, William E.; Markossian, Talar W.; Rasmussen-Torvik, Laura J.; Kho, Abel N.; Black, Bernard S.; Biostatistics, School of Public Health
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    Leveraging Data Visualization and a Statewide Health Information Exchange to Support COVID-19 Surveillance and Response: Application of Public Health Informatics
    (Oxford, 2021) Dixon, Brian E.; Grannis, Shaun J.; McAndrews, Connor; Broyles, Andrea A.; Mikels-Carrasco, Waldo; Wiensch, Ashley; Williams, Jennifer L.; Tachinardi, Umberto; Embi, Peter J.; Epidemiology, School of Public Health
    Objective We sought to support public health surveillance and response to coronavirus disease 2019 (COVID-19) through rapid development and implementation of novel visualization applications for data amalgamated across sectors. Materials and Methods We developed and implemented population-level dashboards that collate information on individuals tested for and infected with COVID-19, in partnership with state and local public health agencies as well as health systems. The dashboards are deployed on top of a statewide health information exchange. One dashboard enables authorized users working in public health agencies to surveil populations in detail, and a public version provides higher-level situational awareness to inform ongoing pandemic response efforts in communities. Results Both dashboards have proved useful informatics resources. For example, the private dashboard enabled detection of a local community outbreak associated with a meat packing plant. The public dashboard provides recent trend analysis to track disease spread and community-level hospitalizations. Combined, the tools were utilized 133 637 times by 74 317 distinct users between June 21 and August 22, 2020. The tools are frequently cited by journalists and featured on social media. Discussion Capitalizing on a statewide health information exchange, in partnership with health system and public health leaders, Regenstrief biomedical informatics experts rapidly developed and deployed informatics tools to support surveillance and response to COVID-19. Conclusions The application of public health informatics methods and tools in Indiana holds promise for other states and nations. Yet, development of infrastructure and partnerships will require effort and investment after the current pandemic in preparation for the next public health emergency.
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    Privacy‐preserving record linkage across disparate institutions and datasets to enable a learning health system: The national COVID cohort collaborative (N3C) experience
    (Wiley, 2024-01-11) Tachinardi, Umberto; Grannis, Shaun J.; Michael, Sam G.; Misquitta, Leonie; Dahlin, Jayme; Sheikh, Usman; Kho, Abel; Phua, Jasmin; Rogovin, Sara S.; Amor, Benjamin; Choudhury, Maya; Sparks, Philip; Mannaa, Amin; Ljazouli, Saad; Saltz, Joel; Prior, Fred; Baghal, Ahmen; Gersing, Kenneth; Embi, Peter J.; Medicine, School of Medicine
    Introduction: Research driven by real-world clinical data is increasingly vital to enabling learning health systems, but integrating such data from across disparate health systems is challenging. As part of the NCATS National COVID Cohort Collaborative (N3C), the N3C Data Enclave was established as a centralized repository of deidentified and harmonized COVID-19 patient data from institutions across the US. However, making this data most useful for research requires linking it with information such as mortality data, images, and viral variants. The objective of this project was to establish privacy-preserving record linkage (PPRL) methods to ensure that patient-level EHR data remains secure and private when governance-approved linkages with other datasets occur. Methods: Separate agreements and approval processes govern N3C data contribution and data access. The Linkage Honest Broker (LHB), an independent neutral party (the Regenstrief Institute), ensures data linkages are robust and secure by adding an extra layer of separation between protected health information and clinical data. The LHB's PPRL methods (including algorithms, processes, and governance) match patient records using "deidentified tokens," which are hashed combinations of identifier fields that define a match across data repositories without using patients' clear-text identifiers. Results: These methods enable three linkage functions: Deduplication, Linking Multiple Datasets, and Cohort Discovery. To date, two external repositories have been cross-linked. As of March 1, 2023, 43 sites have signed the LHB Agreement; 35 sites have sent tokens generated for 9 528 998 patients. In this initial cohort, the LHB identified 135 037 matches and 68 596 duplicates. Conclusion: This large-scale linkage study using deidentified datasets of varying characteristics established secure methods for protecting the privacy of N3C patient data when linked for research purposes. This technology has potential for use with registries for other diseases and conditions.
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    Sustainability considerations for clinical and translational research informatics infrastructure
    (Cambridge University Press, 2018-10) Obeid, Jihad S.; Tarczy-Hornoch, Peter; Harris, Paul A.; Barnett, William K.; Anderson, Nicholas R.; Embi, Peter J.; Hogan, William R.; Bell, Douglas S.; McIntosh, Leslie D.; Knosp, Boyd; Tachinardi, Umberto; Cimino, James J.; Wehbe, Firas H.; Medicine, School of Medicine
    A robust biomedical informatics infrastructure is essential for academic health centers engaged in translational research. There are no templates for what such an infrastructure encompasses or how it is funded. An informatics workgroup within the Clinical and Translational Science Awards network conducted an analysis to identify the scope, governance, and funding of this infrastructure. After we identified the essential components of an informatics infrastructure, we surveyed informatics leaders at network institutions about the governance and sustainability of the different components. Results from 42 survey respondents showed significant variations in governance and sustainability; however, some trends also emerged. Core informatics components such as electronic data capture systems, electronic health records data repositories, and related tools had mixed models of funding including, fee-for-service, extramural grants, and institutional support. Several key components such as regulatory systems (e.g., electronic Institutional Review Board [IRB] systems, grants, and contracts), security systems, data warehouses, and clinical trials management systems were overwhelmingly supported as institutional infrastructure. The findings highlighted in this report are worth noting for academic health centers and funding agencies involved in planning current and future informatics infrastructure, which provides the foundation for a robust, data-driven clinical and translational research program.