Review of Intranasally Administered Medications for Use in the Emergency Department.

BACKGROUND: Intranasal (IN) medication delivery is a viable alternative to other routes of administration, including intravenous (IV) and intramuscular (IM) administration. The IN route bypasses the risk of needle-stick injuries and alleviates the emotional trauma that may arise from the insertion of an IV catheter. OBJECTIVE: This review aims to evaluate published literature on medications administered via the IN route that are applicable to practice in emergency medicine. DISCUSSION: The nasal mucosa is highly vascularized, and the olfactory tissues provide a direct conduit to the central nervous system, bypass first-pass metabolism, and lead to an onset of action similar to IV drug administration. This route of administration has also been shown to decrease delays in drug administration, which can have a profound impact in a variety of emergent scenarios, such as seizures, acutely agitated or combative patients, and trauma management. IN administration of midazolam, lorazepam, flumazenil, dexmedetomidine, ketamine, fentanyl, hydromorphone, butorphanol, naloxone, insulin, and haloperidol has been shown to be a safe, effective alternative to IM or IV administration. As the use of IN medications becomes a more common route of administration in the emergency department setting, and in prehospital and outpatient settings, it is increasingly important for providers to become more familiar with the nuances of this novel route of medication delivery. CONCLUSIONS: IN administration of the reviewed medications has been shown to be a safe and effective alternative to IM or IV administration. Use of IN is becoming more commonplace in the emergency department setting and in prehospital settings.

Medication preparation in pediatric emergencies: comparison of a web-based, standard-dose, bar code-enabled system and a traditional approach.

OBJECTIVES: Increased acuity within the pediatric emergency department increases the risk of medication-related adverse events, despite the availability of validated dosing references. The eBroselow system is a standardized, web-based, bar code-enabled dosing system that eliminates the need for mathematic calculations. This study was designed to assess the accuracy of the eBroselow system and the time needed to prepare medications during pediatric simulated resuscitations compared with standard dosing references. METHODS: This is a two-treatment, two-period crossover trial in which 13 nurses from the adult emergency department who had had pediatric advanced life support training within the previous 3 years, carried out medication dosing during pediatric code simulations. Nurses were randomized to the eBroselow system or to traditional dosing references during period one and transitioned to the opposite treatment group during period two. RESULTS: Use of the eBroselow system resulted in a 24.6% increase in the accuracy of prepared medications, with a complete elimination of clinically significant errors (those ≥20% deviation from the recommended dose). In addition, on average, medications were prepared 8 minutes faster with the eBroselow system versus standard dosing references. CONCLUSIONS: Use of the eBroselow system, a standardized, bar code-based, electronic medication dosing reference, increased the accuracy of medication doses prepared during pediatric code simulations by nearly 25%, with no errors being considered clinically significant.