My Favorite Learners Podcast

Chloe Gomez

My Favorite Learners is a pharmacology podcast for SRNAs, CRNAs, and anesthesia learners. Hosted by Dr. Chloe G, CRNA + DNP + pharmacology professor, this show breaks down anesthesia drugs, mechanisms of action, MAC values, and NBCRNA exam prep. Episodes cover propofol, ketamine, Precedex, NMBAs, inhaled agents, and more - through solo teaching and expert CRNA interviews. Whether you're studying for boards or brushing up on clinical pharmacology, this podcast makes complex topics simple and fun.

  1. 4d ago

    Pediatric & Obstetric Anesthesia Made Easy | High-Yield CRNA, SRNA & NBCRNA NCE Review

    Pediatric and obstetric anesthesia can feel overwhelming when you're first starting clinical - but they don't have to be. In this episode of My Favorite Learners, we simplify two of the most intimidating anesthesia rotations by focusing on physiology first. Instead of memorizing countless facts and syndromes, you'll learn why pediatric and obstetric patients get into trouble and how that changes your anesthetic management. Whether you're preparing for your first pediatric or OB clinical rotation, studying for the NBCRNA NCE, or looking for a high-yield anesthesia physiology review, this episode will give you a strong clinical foundation. ✅ Pediatric airway anatomy and why even 1 mm of airway edema matters✅ Why infants desaturate so quickly (oxygen consumption & functional residual capacity)✅ Pediatric cardiac physiology and why hypoxemia should be your first consideration when an infant becomes bradycardic✅ Pediatric pharmacology pearls including MAC changes, neonatal drug metabolism, protein binding, and common OR cases✅ Pregnancy physiology and how it changes the airway, respiratory, cardiovascular, gastrointestinal, and pharmacologic responses to anesthesia✅ Why pregnancy dramatically changes nearly every organ system we care about as anesthesia providers✅ Labor epidurals, spinal anesthesia, combined spinal-epidurals (CSEs), and the physiology behind spinal hypotension✅ Why phenylephrine is the current first-line vasopressor for spinal-induced hypotension during cesarean delivery✅ Obstetric emergencies including high spinal, local anesthetic systemic toxicity (LAST), and postpartum hemorrhage✅ Classic NBCRNA board pearls and clinical questions you're likely to hear from preceptors • Don't memorize every syndrome - understand the physiology, and the anesthetic management becomes much easier.• Pediatric bradycardia should immediately make you evaluate oxygenation and ventilation.• Pregnancy produces profound physiologic changes that influence every anesthetic plan.• Many institutions use early video laryngoscopy for high-risk obstetric airways, but airway management should always follow your institution's protocols and clinical judgment.• The goal isn't to memorize drug doses - it's to understand why patients respond the way they do. If you're an SRNA, CRNA student, anesthesia resident, or practicing anesthesia provider, this episode will help you connect physiology, pharmacology, and clinical anesthesia in a way that's easy to remember on boards and in the operating room. 🎙️ My Favorite Learners is a podcast designed to simplify anesthesia education through physiology, pharmacology, clinical stories, board pearls, and real-world anesthesia practice. Keywords: CRNA, SRNA, Nurse Anesthesia, NBCRNA, NCE, Pediatric Anesthesia, Obstetric Anesthesia, OB Anesthesia, Pediatric Airway, Labor Epidural, Cesarean Section, C-Section Anesthesia, Spinal Anesthesia, Epidural, Combined Spinal Epidural (CSE), Pediatric Pharmacology, Pregnancy Physiology, Anesthesia Physiology, Local Anesthetic Systemic Toxicity (LAST), Postpartum Hemorrhage, Phenylephrine, Airway Management, Board Review

    23 min
  2. 12/29/2025

    Antihypertensives & Anesthesia: The Meds That Love to Mess with Your Hemodynamics with Chloe Gomez, DNP, CRNA

    Antihypertensive medications don’t have to feel overwhelming or memorization-heavy. In this solo lecture, Chloe Gomez, DNP, CRNA breaks down antihypertensive pharmacology through physiology, mechanisms of action, and real-world anesthesia implications - exactly what SRNAs, CRNAs, and anesthesia providers need for boards and the operating room. This episode walks through the major classes of antihypertensives, focusing on how each drug lowers blood pressure rather than relying on disconnected lists. You’ll learn how antihypertensives interact with preload, afterload, heart rate, contractility, and systemic vascular resistance, and why those effects matter during induction, maintenance, and emergence from anesthesia. Key topics covered include: Beta blockers (β₁ vs β₂ effects, perioperative continuation, blunted sympathetic response) ACE inhibitors (ACE-Is) & ARBs: RAAS physiology, vasodilation, and refractory hypotension Calcium channel blockers (DHP vs non-DHP): vascular vs nodal effects Alpha agonists and antagonists How antihypertensives alter MAP, CO, SVR, and reflex tachycardia Why certain antihypertensives increase the risk of induction hypotension What to hold, continue, or anticipate on the day of surgery Throughout the episode, complex pharmacology is tied directly to: Hemodynamic management in anesthesia Common board scenarios and NBCRNA-style reasoning Vasopressor choice and response Drug interactions with propofol, volatile agents, opioids, and neuraxial anesthesia This lecture emphasizes understanding over memorization, helping anesthesia learners build a framework they can use in high-stakes clinical moments - not just exam day. 🎧 Antihypertensives explained for anesthesia learners - fewer flashcards, more confidence, safer patients.

    28 min
  3. 12/29/2025

    Calm the Rhythm, Save the Patient: Antiarrhythmics You’ll Never Forget with Chloe Gomez, DNP, CRNA

    Antiarrhythmics don’t have to feel like chaos. In this solo lecture, CRNA educator Chloe Gomez, DNP, CRNA breaks down antiarrhythmic pharmacology using clear physiology, memorable frameworks, and anesthesia-specific clinical relevance - perfect for SRNAs, CRNAs, and anesthesia providers preparing for boards and clinical practice. This episode walks step-by-step through the Vaughan Williams classification system (Class I–IV) and explains why these drugs work, not just what list they belong to. You’ll learn how antiarrhythmics interact with sodium, potassium, calcium channels, and beta receptors, and how those effects translate to changes in phase 0 depolarization, action potential duration, refractory periods, and conduction velocity. Key topics covered include: Class I sodium channel blockers (IA, IB, IC): how they alter phase 0, QRS width, and conduction Class II beta blockers: AV node effects, rate control, and anesthesia considerations Class III potassium channel blockers: action potential prolongation, QT interval risk, and torsades Class IV calcium channel blockers: nodal suppression and hemodynamic effects Why electrolytes (K⁺, Mg²⁺) matter when using antiarrhythmics How antiarrhythmics can become pro-arrhythmic What anesthesia providers must watch for in the OR, ICU, and PACU This lecture emphasizes mechanism-based understanding, tying pharmacology directly to: ECG changes Perioperative risk stratification Volatile anesthetics and arrhythmia risk Drug interactions common in anesthesia practice Board-style clinical reasoning for the NBCRNA NCE If you’ve ever memorized the Vaughan Williams classes and immediately forgotten them, this episode is designed to finally make antiarrhythmics stick - so you can reason through arrhythmias with confidence instead of panic. 🎧 Antiarrhythmics decoded for anesthesia learners - fewer tables, more understanding, safer practice.

    15 min
  4. 12/29/2025

    Blood, Guts, and How not to Cause a Spinal Hematoma with Chloe Gomez, DNP, CRNA

    Anticoagulants don’t have to feel overwhelming. In this solo episode, CRNA educator Chloe Gomez, DNP, CRNA breaks down the coagulation cascade and anticoagulant pharmacology in a clear, intuitive way designed for SRNAs, CRNAs, and anesthesia providers preparing for boards and real-world clinical practice. We start with a simple, step-by-step walkthrough of the intrinsic, extrinsic, and common pathways, then connect that physiology directly to how commonly used anticoagulants work — including unfractionated heparin (UFH), low-molecular-weight heparin (LMWH), warfarin (Coumadin), and direct oral anticoagulants (DOACs). This episode goes beyond memorization and focuses on mechanism-based understanding, explaining: Why heparin potentiates antithrombin III and primarily inhibits factor IIa (thrombin) and factor Xa Why PT/INR rises first with warfarin due to factor VII’s short half-life — not because warfarin “blocks the extrinsic pathway” How DOACs selectively target factor Xa or thrombin Which labs actually reflect drug effect (aPTT, PT/INR, ACT, anti-Xa) How electrolyte imbalances can turn anticoagulants into pro-arrhythmics or bleeding risks We also cover high-yield anesthesia considerations, including: Neuraxial anesthesia timing and safety ASRA-aligned anticoagulant hold times Reversal agents (protamine, vitamin K, PCCs, andexanet alfa, idarucizumab) Practical OR case scenarios you are likely to see in real practice If you’re studying for the NBCRNA NCE, teaching anesthesia pharmacology, or just want anticoagulants to finally make sense, this episode is designed to help you stop memorizing tables - and start building safe anesthetic plans. 🎧 Educational, board-relevant, and clinically grounded - this is anticoagulation for anesthesia providers who want to truly understand the “why.”

    27 min

Ratings & Reviews

4.9
out of 5
16 Ratings

About

My Favorite Learners is a pharmacology podcast for SRNAs, CRNAs, and anesthesia learners. Hosted by Dr. Chloe G, CRNA + DNP + pharmacology professor, this show breaks down anesthesia drugs, mechanisms of action, MAC values, and NBCRNA exam prep. Episodes cover propofol, ketamine, Precedex, NMBAs, inhaled agents, and more - through solo teaching and expert CRNA interviews. Whether you're studying for boards or brushing up on clinical pharmacology, this podcast makes complex topics simple and fun.

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