 Challenges in detecting and predicting adverse drug events via distributed analysis of electronic health record data from German university hospitalsAnna Maria Wermund, Torsten Thalheim, André Medek, Florian Schmidt, Thomas Peschel, Alexander Strübing, Daniel Neumann, André Scherag, Markus Loeffler, Miriam Kesselmeier, Ulrich Jaehde and for the POLAR_MI Consortium PLOS Digital Health, 2025, vol. 4, issue 6, 1-19 Abstract: The Medical Informatics Initiative Germany (MII) aims to facilitate the interoperability and exchange of electronic health record data from all German university hospitals. The MII use case “POLyphamacy, drug interActions and Risks” (POLAR_MI) was designed to retrospectively detect medication-related risks in adult inpatients. As part of POLAR_MI, we aimed to build predictive models for specific adverse events. Here, using the two adverse events gastrointestinal bleeding and drug-related hypoglycaemia as examples, we present our initial investigation to determine whether these adverse events and their associations with potential risk factors can be detected. We applied a two-step distributed analysis approach to electronic health record data from 2018 to 2021. This approach consisted of a local statistical data analysis at ten participating centres, followed by a mixed-effects meta-analysis. For each adverse event, two multivariable logistic regression models were constructed: (1) including only demographics, diagnoses and medications, and (2) extended by laboratory values. As numerically stable estimations of both models were not possible at each centre, we constructed different centre subgroups for meta-analyses. We received prevalence estimates of around 1.2% for GI bleeding and around 3.0% for drug-related hypoglycaemia. Although unavailability of laboratory values was a common reason hindering model estimation, multivariable regression models were obtained for both adverse events from several centres. Regarding our original intention to build predictive models, the median area under the receiver operating characteristic curve was above 0.70 for all multivariable regression models, indicating feasibility. In conclusion, plausible estimates for prevalence and regression modelling odds ratios were received when using a distributed analysis approach on inpatient treatment data from diverse German university hospitals. Our results suggest that the development of predictive models in a distributed setting is possible if the research question is adapted to the infrastructure and the available data.Author summary: Undesirable medical occurrences following exposure to a drug are called adverse events. They are a common and often preventable cause of illness in patients. To facilitate their detection and prevention, models can be used to predict the probability of the development or presence of an adverse event. As part of the project “POLypharmacy, drug interActions and Risks” (POLAR_MI) of the Medical Informatics Initiative Germany (MII), we investigated whether two adverse events (gastrointestinal bleeding and drug-related hypoglycaemia) could be detected and their associations with potential risk factors assessed. This was done to test the feasibility of building predictive models within the framework established by the MII using a distributed analysis approach without direct data access for the analyst. We received plausible estimates for the prevalence of the adverse events and risk factors, and observed mainly clinically plausible associations between the adverse events and the related risk factors. One of our major challenges was the unavailability of laboratory values used to define the adverse event drug-related hypoglycaemia and some potential risk factors. Based on our results, we conclude that the development of predictive models is possible if a research question can be defined that fits the IT infrastructure and the available data. Date: 2025 Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:plo:pdig00:0000892 DOI: 10.1371/journal.pdig.0000892 Access Statistics for this article More articles in PLOS Digital Health from Public Library of Science |
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