Integrating and Evaluating the Data Quality and Utility of Smart Pump Information in Detecting Medication Administration Errors: Evaluation Study

Overview

Journal JMIR Med Inform

Publisher JMIR Publications

Specialty Medical Informatics

Date 2020 Sep 3

PMID 32876578

Citations 5

Authors

Yizhao Ni

Todd Lingren

Hannah Huth

Kristen Timmons

Krisin Melton

Eric Kirkendall

Affiliations

Soon will be listed here.

Abstract

Background: At present, electronic health records (EHRs) are the central focus of clinical informatics given their role as the primary source of clinical data. Despite their granularity, the EHR data heavily rely on manual input and are prone to human errors. Many other sources of data exist in the clinical setting, including digital medical devices such as smart infusion pumps. When incorporated with prescribing data from EHRs, smart pump records (SPRs) are capable of shedding light on actions that take place during the medication use process. However, harmoniz-ing the 2 sources is hindered by multiple technical challenges, and the data quality and utility of SPRs have not been fully realized.

Objective: This study aims to evaluate the quality and utility of SPRs incorporated with EHR data in detecting medication administration errors. Our overarching hypothesis is that SPRs would contribute unique information in the med-ication use process, enabling more comprehensive detection of discrepancies and potential errors in medication administration.

Methods: We evaluated the medication use process of 9 high-risk medications for patients admitted to the neonatal inten-sive care unit during a 1-year period. An automated algorithm was developed to align SPRs with their medica-tion orders in the EHRs using patient ID, medication name, and timestamp. The aligned data were manually re-viewed by a clinical research coordinator and 2 pediatric physicians to identify discrepancies in medication ad-ministration. The data quality of SPRs was assessed with the proportion of information that was linked to valid EHR orders. To evaluate their utility, we compared the frequency and severity of discrepancies captured by the SPR and EHR data, respectively. A novel concordance assessment was also developed to understand the detec-tion power and capabilities of SPR and EHR data.

Results: Approximately 70% of the SPRs contained valid patient IDs and medication names, making them feasible for data integration. After combining the 2 sources, the investigative team reviewed 2307 medication orders with 10,575 medication administration records (MARs) and 23,397 SPRs. A total of 321 MAR and 682 SPR dis-crepancies were identified, with vasopressors showing the highest discrepancy rates, followed by narcotics and total parenteral nutrition. Compared with EHR MARs, substantial dosing discrepancies were more commonly detectable using the SPRs. The concordance analysis showed little overlap between MAR and SPR discrepan-cies, with most discrepancies captured by the SPR data.

Conclusions: We integrated smart infusion pump information with EHR data to analyze the most error-prone phases of the medication lifecycle. The findings suggested that SPRs could be a more reliable data source for medication error detection. Ultimately, it is imperative to integrate SPR information with EHR data to fully detect and mitigate medication administration errors in the clinical setting.

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References

McHugh M . Interrater reliability: the kappa statistic. Biochem Med (Zagreb). 2012; 22(3):276-82. PMC: 3900052. View

Melton K, Timmons K, Walsh K, Meinzen-Derr J, Kirkendall E . Smart pumps improve medication safety but increase alert burden in neonatal care. BMC Med Inform Decis Mak. 2019; 19(1):213. PMC: 6836424. DOI: 10.1186/s12911-019-0945-2. View

Li Q, Kirkendall E, Hall E, Ni Y, Lingren T, Kaiser M . Automated detection of medication administration errors in neonatal intensive care. J Biomed Inform. 2015; 57:124-33. PMC: 4715992. DOI: 10.1016/j.jbi.2015.07.012. View

Brown S, Bogner M, PARMENTIER C, Taylor J . Human error and patient-controlled analgesia pumps. J Intraven Nurs. 1998; 20(6):311-6. View

Li Q, Melton K, Lingren T, Kirkendall E, Hall E, Zhai H . Phenotyping for patient safety: algorithm development for electronic health record based automated adverse event and medical error detection in neonatal intensive care. J Am Med Inform Assoc. 2014; 21(5):776-84. PMC: 4147599. DOI: 10.1136/amiajnl-2013-001914. View

Skledar S, Niccolai C, Schilling D, Costello S, Mininni N, Ervin K . Quality-improvement analytics for intravenous infusion pumps. Am J Health Syst Pharm. 2013; 70(8):680-6. DOI: 10.2146/ajhp120104. View

Trbovich P, Pinkney S, Cafazzo J, Easty A . The impact of traditional and smart pump infusion technology on nurse medication administration performance in a simulated inpatient unit. Qual Saf Health Care. 2010; 19(5):430-4. PMC: 2975961. DOI: 10.1136/qshc.2009.032839. View

Ni Y, Lingren T, Hall E, Leonard M, Melton K, Kirkendall E . Designing and evaluating an automated system for real-time medication administration error detection in a neonatal intensive care unit. J Am Med Inform Assoc. 2018; 25(5):555-563. PMC: 6018990. DOI: 10.1093/jamia/ocx156. View

Kirkendall E, Ni Y, Lingren T, Leonard M, Hall E, Melton K . Data Challenges With Real-Time Safety Event Detection And Clinical Decision Support. J Med Internet Res. 2019; 21(5):e13047. PMC: 6549472. DOI: 10.2196/13047. View

10.

Rothschild J, Keohane C, Cook E, Orav E, Burdick E, Thompson S . A controlled trial of smart infusion pumps to improve medication safety in critically ill patients. Crit Care Med. 2005; 33(3):533-40. DOI: 10.1097/01.ccm.0000155912.73313.cd. View

11.

Shah P, Irizarry J, ONeill S . Strategies for Managing Smart Pump Alarm and Alert Fatigue: A Narrative Review. Pharmacotherapy. 2018; 38(8):842-850. DOI: 10.1002/phar.2153. View

12.

Schnock K, Dykes P, Albert J, Ariosto D, Call R, Cameron C . The frequency of intravenous medication administration errors related to smart infusion pumps: a multihospital observational study. BMJ Qual Saf. 2016; 26(2):131-140. DOI: 10.1136/bmjqs-2015-004465. View

13.

Tran M, Ciarkowski S, Wagner D, Stevenson J . A case study on the safety impact of implementing smart patient-controlled analgesic pumps at a tertiary care academic medical center. Jt Comm J Qual Patient Saf. 2012; 38(3):112-9. DOI: 10.1016/s1553-7250(12)38015-x. View

14.

Westbrook J, Rob M, Woods A, Parry D . Errors in the administration of intravenous medications in hospital and the role of correct procedures and nurse experience. BMJ Qual Saf. 2011; 20(12):1027-34. PMC: 3228265. DOI: 10.1136/bmjqs-2011-000089. View

15.

Biltoft J, Finneman L . Clinical and financial effects of smart pump-electronic medical record interoperability at a hospital in a regional health system. Am J Health Syst Pharm. 2018; 75(14):1064-1068. DOI: 10.2146/ajhp161058. View

16.

Lyons I, Furniss D, Blandford A, Chumbley G, Iacovides I, Wei L . Errors and discrepancies in the administration of intravenous infusions: a mixed methods multihospital observational study. BMJ Qual Saf. 2018; 27(11):892-901. PMC: 6225796. DOI: 10.1136/bmjqs-2017-007476. View

17.

Chaturvedi R, Etchegaray J, Raaen L, Jackson J, Friedberg M . Technology Isn't the Half of It: Integrating Electronic Health Records and Infusion Pumps in a Large Hospital. Jt Comm J Qual Patient Saf. 2019; 45(10):649-661. DOI: 10.1016/j.jcjq.2019.07.006. View

18.

Fontan J, Maneglier V, Nguyen V, Loirat C, Brion F . Medication errors in hospitals: computerized unit dose drug dispensing system versus ward stock distribution system. Pharm World Sci. 2003; 25(3):112-7. DOI: 10.1023/a:1024053514359. View

19.

Walsh K, Adams W, Bauchner H, Vinci R, Chessare J, Cooper M . Medication errors related to computerized order entry for children. Pediatrics. 2006; 118(5):1872-9. DOI: 10.1542/peds.2006-0810. View

20.

Ohashi K, Dalleur O, Dykes P, Bates D . Benefits and risks of using smart pumps to reduce medication error rates: a systematic review. Drug Saf. 2014; 37(12):1011-20. DOI: 10.1007/s40264-014-0232-1. View