Johnson, Steven2017-07-182017-07-182016-04https://hdl.handle.net/11299/188958University of Minnesota Ph.D. dissertation. April 2016. Major: Health Informatics. Advisor: Bonnie Westra. 1 computer file (PDF); ix, 101 pages.Electronic health record (EHR) systems are designed to replace paper charts and facilitate the delivery of care. Since EHR data is now readily available in electronic form, it is increasingly used for other purposes. This is expected to improve health outcomes for patients; however, the benefits will only be realized if the data that is captured in the EHR is of sufficient quality to support these secondary uses. This research demonstrated that a healthcare data quality framework can be developed that produces metrics that characterize underlying EHR data quality and it can be used to quantify the impact of data quality issues on the correctness of the intended use of the data. The framework described in this research defined a Data Quality (DQ) Ontology and implemented an assessment method. The DQ Ontology was developed by mining the healthcare data quality literature for important terms used to discuss data quality concepts and these terms were harmonized into an ontology. Four high-level data quality dimensions (CorrectnessMeasure, ConsistencyMeasure, CompletenessMeasure and CurrencyMeasure) categorized 19 lower level Measures. The ontology serves as an unambiguous vocabulary and allows more precision when discussing healthcare data quality. The DQ Ontology is expressed with sufficient rigor that it can be used for logical inference and computation. The data quality framework was used to characterize data quality of an EHR for 10 data quality Measures. The results demonstrate that data quality can be quantified and Metrics can track data quality trends over time and for specific domain concepts. The DQ framework produces scalar quantities which can be computed on individual domain concepts and can be meaningfully aggregated at different levels of an information model. The data quality assessment process was also used to quantify the impact of data quality issues on a task. The EHR data was systematically degraded and a measure of the impact on the correctness of CMS178 eMeasure (Urinary Catheter Removal after Surgery) was computed. This information can help healthcare organizations prioritize data quality improvement efforts to focus on the areas that are most important and determine if the data can support its intended use.endata qualityhealthcareinformaticsontologyThesis or Dissertation