Improving Transfusion Safety in the Operating Room With a Barcode Scanning System Designed Specifically for the Surgical Environment and Existing Electronic Medical Record Systems: An Interrupted Time Series Analysis
Autor: | Kimberly Donovan, Walter H. Dzik, William D. Driscoll, Hao Deng, Matthew Vanneman, Angela L Lang, Wilton C. Levine, Alyssa M Payette, Aditi Balakrishna, Xiaojun Xu, Kent Eliason |
---|---|
Rok vydání: | 2020 |
Předmět: |
Adult
Operating Rooms Blood transfusion medicine.medical_treatment Audit Documentation Barcode Interrupted Time Series Analysis law.invention Workflow 03 medical and health sciences Patient safety 0302 clinical medicine 030202 anesthesiology law Medicine Electronic Health Records Humans Blood Transfusion Software system Electronic Data Processing Medical Errors business.industry Medical record medicine.disease Quality Improvement Anesthesiology and Pain Medicine Medical emergency Guideline Adherence Patient Safety business 030217 neurology & neurosurgery |
Zdroj: | Anesthesia and analgesia. 131(4) |
ISSN: | 1526-7598 |
Popis: | BACKGROUND Manual processes for verifying patient identification before blood transfusion and documenting this pretransfusion safety check are prone to errors, and compliance with manual systems is especially poor in urgent operating room settings. An automated, electronic barcode scanner system would be expected to improve pretransfusion verification and documentation. METHODS Audits were conducted of blood transfusion documentation under a manual paper system from January to October 2014. An electronic barcode scanning system was developed to streamline transfusion safety checking and automate documentation. This system was implemented in 58 operating rooms between October and December 2014, with follow-up compliance audits through December 2015. The association of barcode scanner implementation with transfusion documentation compliance was assessed using an interrupted time series analysis. Anesthesia providers were surveyed regarding their opinions on the electronic system. In mid-2016, the scanning system was modified to transfer from the Metavision medical record system to Epic OpTime. Follow-up analysis assessed performance of this system within Epic during 2017. RESULTS In an interrupted time series analysis, the proportion of units with compliant documentation was estimated to be 19.6% (95% confidence interval [CI], 10.7-25.6) the week before scanner implementation, and 74.4% (95% CI, 59.4-87.4) the week after implementation. There was a significant postintervention level change (odds ratio 10.80, 95% CI, 6.31-18.70; P < .001) and increase in slope (odds ratio 1.14 per 1-week increase, 95% CI, 1.11-1.17; P < .001). After implementation, providers chose to use the new electronic system for 98% of transfusions. Across the 2 years analyzed (15,997 transfusions), the electronic system detected 45 potential transfusion errors in 27 unique patients, and averted transfusion of 36 mismatched blood products into 20 unique patients. A total of 69%, 86%, and 88% of providers reported the electronic system improved patient safety, blood transfusion workflow, and transfusion documentation, respectively. When providers used the barcode scanner, no transfusion errors or reactions were reported. The scanner system was successfully transferred from Metavision to Epic without retraining staff or changing workflows. CONCLUSIONS A barcode-based system designed for easy integration to different commonly used anesthesia information management systems was implemented in a large urban academic hospital. The system allows a single user with the assistance of a software system to perform and document pretransfusion safety verification. The system improved transfusion documentation compliance, averted potential transfusion errors, and became the preferred method of blood transfusion safety checking. |
Databáze: | OpenAIRE |
Externí odkaz: |