Medication errors are common in children. Characteristics of errors during critical situations in the Emergency Department are ill-defined and might be more frequent than previously thought. However, optimal strategies to eliminate the risk of prescribing errors remain unknown. Many smartphone apps have been suggested over the last years with some of them designed to calculate medication dosage for children. The impact of these apps to decrease dosage error has never been evaluated in resuscitation setting. The aim of the study is to evaluate whether the use of a smartphone application designed to calculate medication doses decreases prescribing errors among residents during pediatric simulated resuscitations. This will be a crossover-randomized trial using high fidelity simulation among 40 residents rotating in the pediatric emergency department.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
40
If already own a smartphone application dedicated to calculate medication dosage for children, the participant will be allowed to use his/her own application. Otherwise, the resident will be offered to chose among a list of applications paid by the research team (PediSafe, PediStat, Palm Pedi, Safedose, EZdrip peds). He/she will be instructed to practice with a few time at home before doing the simulations.
Resuscitation handbook who provides drug dosages for each weight for children. For example, at the page of 15 kg, it is written that the dosage of epinephrin is 1.5 cc of 1: 10 000.
CHU Sainte-Justine
Montreal, Quebec, Canada
Medication error
The primary outcome is the presence of a medication error. An error will be defined as a drug dose varying by more than 20% from the recommended dose or by incorrect route.
Time frame: During resuscitation
Proportion of tenfold error
A tenfold error will be defined as a drug dose varying by a factor of 10 compared to the recommended dose.
Time frame: During resuscitation
Time for prescribing the first medication
Time from the beginning of the simulation and complete prescription (oral or written) of the first medication.
Time frame: During the simulation (10 minutes)
Error in bolus medication
An error in bolus medication will be defined as a drug dose varying by more than 20% from the recommended dose or by incorrect route.
Time frame: during simulation
Error in perfusion medication
An error in perfusion medication will be defined as a drug dose varying by more than 20% from the recommended dose. This can be related to a preparation error or a flow error.
Time frame: during simulation
User satisfaction
Satisfaction of the resident with both tools using a Visual analog scale
Time frame: 2 weeks
User confidence
Confidence of the resident while using both tools using a Visual analog scale
Time frame: 2 weeks
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.