Assessing the quality of clinical and administrative data extracted from hospitals: the General Medicine Inpatient Initiative (GEMINI) experience
| Autor: | Adina Weinerman, Vladyslav Kushnir, Lauren Lapointe-Shaw, Shail Rawal, Fahad Razak, Hae Young Jung, Amol A. Verma, Denise Mak, Terence Tang, Yishan Guo, Radha Koppula, Janice L. Kwan, Sachin V. Pasricha |
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| Rok vydání: | 2020 |
| Předmět: |
medicine.medical_specialty
Quality management Databases Factual Computer science media_common.quotation_subject Data validation Datasets as Topic Health Informatics Sample (statistics) Research and Applications Sensitivity and Specificity Positive predicative value medicine Electronic Health Records Humans Medical physics Quality (business) media_common Data Management Ontario Data collection Data Collection Electronic medical record Gold standard (test) medicine.disease Data Accuracy Hospitalization Data quality Hospital Information Systems Data system Medical emergency |
| Zdroj: | J Am Med Inform Assoc |
| ISSN: | 1527-974X |
| Popis: | ObjectiveLarge clinical databases are increasingly being used for research and quality improvement, but there remains uncertainty about how computational and manual approaches can be used together to assess and improve the quality of extracted data. The General Medicine Inpatient Initiative (GEMINI) database extracts and standardizes a broad range of data from clinical and administrative hospital data systems, including information about attending physicians, room transfers, laboratory tests, diagnostic imaging reports, and outcomes such as death in-hospital. We describe computational data quality assessment and manual data validation techniques that were used for GEMINI.MethodsThe GEMINI database currently contains 245,559 General Internal Medicine patient admissions at 7 hospital sites in Ontario, Canada from 2010-2017. We performed 7 computational data quality checks followed by manual validation of 23,419 selected data points on a sample of 7,488 patients across participating hospitals. After iteratively re-extracting data as needed based on the computational data quality checks, we manually validated GEMINI data against the data that could be obtained using the hospital’s electronic medical record (i.e. the data clinicians would see when providing care), which we considered the gold standard. We calculated accuracy, sensitivity, specificity, and positive and negative predictive values of GEMINI data.ResultsComputational checks identified multiple data quality issues – for example, the inclusion of cancelled radiology tests, a time shift of transfusion data, and mistakenly processing the symbol for sodium, “Na”, as a missing value. Manual data validation revealed that GEMINI data were ultimately highly reliable compared to the gold standard across nearly all data tables. One important data quality issue was identified by manual validation that was not detected by computational checks, which was that the dates and times of blood transfusion data at one site were not reliable. This resulted in low sensitivity (66%) and positive predictive value (75%) for blood transfusion data at that site. Apart from this single issue, GEMINI data were highly reliable across all data tables, with high overall accuracy (ranging from 98-100%), sensitivity (95-100%), specificity (99-100%), positive predictive value (93-100%), and negative predictive value (99-100%) compared to the gold standard.Discussion and ConclusionIterative assessment and improvement of data quality based primarily on computational checks permitted highly reliable extraction of multisite clinical and administrative data. Computational checks identified nearly all of the data quality issues in this initiative but one critical quality issue was only identified during manual validation. Combining computational checks and manual validation may be the optimal method for assessing and improving the quality of large multi-site clinical databases. |
| Databáze: | OpenAIRE |
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