EM Quick Hits 55 – Induction Agents, Gabapentinoids, Neuroprotective Intubation, Approach to Paresthesias, Preventing Burnout

Emergency Medicine Cases - A podcast by Dr. Anton Helman - Tuesdays

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Topics in this EM Quick Hits podcast Anand Swaminathan on update on the appropriate selection of induction agents (1:10) Hans Rosenberg on when to use gabapentinoids for pain control in the ED (8:47) Katie Lin on clinical pearls for neuroprotective intubation (14:35) Nour Khatib and Hamza Jalal on a simple approach to paresthesias in the ED (23:15) Eric Wortmann on preventing burnout in emergency medicine (40:10) Podcast production, editing and sound design by Anton Helman Written summary & blog post by Shaila Gunn, edited by Anton Helman Cite this podcast as: Helman, A. Swaminathan, A. Rosenberg, H. Lin, K. Khatib, N. Jalal, H. Wortmann, E.  EM Quick Hits 55 - Induction Agents, Gabapentinoids for Pain Control, Neuroprotective Intubation, Approach to Paresthesias. Emergency Medicine Cases. February, 2024. https://emergencymedicinecases.com/em-quick-hits-february-2024/. Accessed September 17, 2024. An update on induction agents for RSI The primary medication choices for RSI induction are etomidate, ketamine, and propofol. Etomidate: traditionally, the "workhorse" * Hemodynamics: No vasodilatory properties therefore hemodynamically stable * Pharmacokinetics: Fast onset (1 minute) and short duration (3-5 minutes) * Other benefits: There are few contraindications * Risks: * Adrenal suppression (though this is transient and has not been shown to change patient outcomes) * Emerging evidence suggests that etomidate may increase mortality [1] Ketamine: a good replacement for etomidate * Hemodynamics: Increases the release of endogenous catecholamines. This may increase blood pressure. It may not increase blood pressure in those who are catecholamine deplete (i.e. severe septic shock) and should not be relied upon to increase blood pressure. It can also lower blood pressure by depleting catecholamines. This is not thought to be dose dependent so a reduced dose is unlikely to protect hemodynamics. * Pharmacokinetics: Fast onset (30-50 s) and longer duration (30-45 minutes) * Other benefits: * Has analgesic properties * Can be used in head trauma and hypertension and may even be neuroprotective * Longer duration of action makes it a good choice in patients who are receiving a longer acting paralytic * Best use: for the shocky patient Propofol * Hemodynamics: Causes vasodilation and cardiac depression which intrinsically drops blood pressure in a dose dependent fashion * Pharmacokinetics: Fast onset (15-30 s) and short duration (5-10 minutes) * Other benefits: * Decreases blood pressure making it useful in hypertensive emergencies * Has anti-epileptic properties making it useful for post-stroke, ICH, status epilepticus, or alcohol withdrawal patients * Risks: Because it drops blood pressure, it is important to reduce the dose in critically ill and hypotensive patients; either slowly administer until you reach the desires dissociative effect or use 10-20% of usual dose (~10-15 mg total) * Best uses: In patients at risk for seizure, hypertensive patients, and for post-intubation sedation => Key points: * Emerging evidence that etomidate may increase mortality * Dose reductions for etomidate and ketamine are unlikely to reduce the risk of hypotension post-RSI but, reduced dose may increase awareness of paralysis