A Mobile Device App to Reduce Time to Drug Delivery and Medication Errors During Simulated Pediatric Cardiopulmonary Resuscitation: A Randomized Controlled Trial

During pediatric cardiopulmonary resuscitation (CPR), vasoactive drug preparation for continuous infusion is both complex and time-consuming, placing children at higher risk than adults for medication errors. Following an evidence-based ergonomic-driven approach, we developed a mobile device app cal...

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Bibliographic Details
Published in:Journal of medical Internet research 2017-02, Vol.19 (2), p.e31-e31
Main Authors: Siebert, Johan N, Ehrler, Frederic, Combescure, Christophe, Lacroix, Laurence, Haddad, Kevin, Sanchez, Oliver, Gervaix, Alain, Lovis, Christian, Manzano, Sergio
Format: Article
Language:English
Subjects:
Adrenaline
Adult
Cardiopulmonary resuscitation
Cardiopulmonary Resuscitation - methods
Caregivers
Children
Clinical trials
CPR
CPR (First aid)
Critical incidents
Cross-Over Studies
Dopamine
Dosage
Drug delivery systems
Drug Delivery Systems - methods
Drugs
Emergency medical care
Emergency Service, Hospital
Emergency services
Female
Fidelity
Health aspects
Humans
Male
Manikins
Medical errors
Medication errors
Medication Errors - prevention & control
Mobile Applications
Mobile devices
Myocardial infarction
Nurses
Original Paper
Pediatrics
Pediatrics - methods
Prospective Studies
Simulation
Vehicles
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Summary:During pediatric cardiopulmonary resuscitation (CPR), vasoactive drug preparation for continuous infusion is both complex and time-consuming, placing children at higher risk than adults for medication errors. Following an evidence-based ergonomic-driven approach, we developed a mobile device app called Pediatric Accurate Medication in Emergency Situations (PedAMINES), intended to guide caregivers step-by-step from preparation to delivery of drugs requiring continuous infusion. The aim of our study was to determine whether the use of PedAMINES reduces drug preparation time (TDP) and time to delivery (TDD; primary outcome), as well as medication errors (secondary outcomes) when compared with conventional preparation methods. The study was a randomized controlled crossover trial with 2 parallel groups comparing PedAMINES with a conventional and internationally used drugs infusion rate table in the preparation of continuous drug infusion. We used a simulation-based pediatric CPR cardiac arrest scenario with a high-fidelity manikin in the shock room of a tertiary care pediatric emergency department. After epinephrine-induced return of spontaneous circulation, pediatric emergency nurses were first asked to prepare a continuous infusion of dopamine, using either PedAMINES (intervention group) or the infusion table (control group), and second, a continuous infusion of norepinephrine by crossing the procedure. The primary outcome was the elapsed time in seconds, in each allocation group, from the oral prescription by the physician to TDD by the nurse. TDD included TDP. The secondary outcome was the medication dosage error rate during the sequence from drug preparation to drug injection. A total of 20 nurses were randomized into 2 groups. During the first study period, mean TDP while using PedAMINES and conventional preparation methods was 128.1 s (95% CI 102-154) and 308.1 s (95% CI 216-400), respectively (180 s reduction, P=.002). Mean TDD was 214 s (95% CI 171-256) and 391 s (95% CI 298-483), respectively (177.3 s reduction, P=.002). Medication errors were reduced from 70% to 0% (P
ISSN:1438-8871
1439-4456
1438-8871
DOI:10.2196/jmir.7005