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Episode 220: Post-ROSC Care

Episode 220: Post-ROSC Care

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 We explore how to refine and optimize care in the vital minutes following ROSC. Hosts: Jonathan Elmer, MD, MS Brian Gilberti, MD https://media.blubrry.com/coreem/content.blubrry.com/coreem/Post-ROSC_care.mp3 Download Leave a Comment Show Notes Core EM Modular CME Course Maximize your commute with the new Core EM Modular CME Course, featuring the most essential content distilled from our top-rated podcast episodes. This course offers 12 audio-based modules packed with pearls! Information and link below. Course Highlights: Credit: 12.5 AMA PRA Category 1 Credits™Curriculum: Comprehensive coverage of Core Emergency Medicine, with 12 modules spanning from Critical Care to Pediatrics.Cost: Free for NYU Learners$250 for Non-NYU Learners Click Here to Register and Begin Module 1 I. Phase 1: Stabilization (Minutes 0–10) The “Rearrest” Window & Pathophysiology High-Risk Period: Rearrest rates reach 30% within the first minutes post-ROSC. Shock Incidence: Two-thirds of patients develop profound hypotension/shock as initial resuscitative efforts subside. Catecholamine Washout: Super-physiologic “code-dose” epinephrine (1mg IV) typically wears off within ~3 minutes post-ROSC, leading to predictable hemodynamic collapse. Secondary Injuries: Evaluate for “CPR-induced trauma” (blunt thoracic trauma, rib fractures, pneumothorax, liver/splenic lacerations). Immediate Resuscitative Actions Vascular Access: Transition rapidly from IO to reliable IV access within 1–2 minutes. Prioritize Intraosseous (IO) placement within 5 minutes if IV attempts fail; intra-arrest data suggests no significant difference in early outcomes. Vasoactive “Bridge”: Maintain a “bolus-dose” pressor at the bedside for immediate push-dose titration. Options: Phenylephrine, dilute Epinephrine, or dilute Norepinephrine (titrated to effect rather than rigid dosing). Physician-Specific Task: Arterial Line: Goal: Placement within 5 minutes of ROSC. Preferred Site: Femoral (by landmarks/blind if necessary) for speed; should be a <2-minute procedure. Utility: Immediate detection of rearrest and beat-to-beat titration of vasopressors. II. Phase 2: Diagnostic Workup (Minutes 10–40) Etiology Epidemiology ACS Shift: Acute Coronary Syndrome (ACS) is the cause in only 6–10% of resuscitated survivors (lower than historical estimates). Common Etiologies:Respiratory: COPD, pneumonia, mucus plugging. Cardiac: Arrhythmia (cardiomyopathy/scar), RV failure (PE), or LV failure. Neurological: Intracranial hemorrhage (SAH/ICH), status epilepticus (4–5%). Metabolic: Dialysis-related disarray/hyperkalemia. Toxicology: Overdose accounts for ~10% of cases in urban centers. The “Broad Net” Strategy “Rainbow Labs”: Comprehensive panel including toxicology and serial biomarkers. Pan-Scan Protocol: Components: CT/CTA Head/Neck, Contrast CT Chest/Abdomen/Pelvis. Diagnostic Yield: 50% for clinically significant findings (causes or consequences of arrest). Contrast Risk: Negligible (1–2% increase in AKI risk) compared to the high diagnostic utility. Avoid Anchoring: Do not assume ischemic EKG changes are the cause; they are frequently a consequence of the global arrest-induced ischemia. III. Hemodynamic & Respiratory Targets Mean Arterial Pressure (MAP) Autoregulation Shift: In acute brain injury/post-arrest, the lower limit of cerebral autoregulation shifts right, often requiring MAPs of 110–120 mmHg for adequate perfusion.Clinical Target: Aim for MAP >80 mmHg. The BOX Trial Nuance: While the BOX trial showed no difference between MAP 63 vs. 77, its cohort (Denmark) had exceptionally high survival rates (70% back to work) and short response times, which may not generalize to North American populations with lower shockable rhythm incidence. Permissive Hypertension: If the patient is “self-driving” to higher pressures, do not aggressively lower them, as this may be a physiologic demand for cerebral blood flow. Ventilation and Oxygenation PaCO2 Management: Target: High-normal to slightly hypercarbic (45–55 mmHg). Rationale: Avoid accidental hyperventilation (PaCO2 <30), which can cut cerebral blood flow by 50%. PaO2 Management: Maintain normoxia; avoid extreme hyperoxia, though trial data (BOX trial) suggests small variances (70 vs 90 mmHg) are likely neutral. IV. Neurological Prognostication & Communication The “Stunned” Brain Anoxic Depolarization: Occurs within ~2 minutes of pulselessness as ATP-dependent ion pumps fail. Clinical Pitfall: Early neurological exams (absent pupils, no motor response) are unreliable in the first hours as they reflect global neuronal “stunning” rather than definitive permanent injury. Time Horizon: Meaningful recovery is measured in days/weeks, not minutes/hours. Family Engagement Presence: Bring family to the bedside immediately, including during procedures or continued resuscitation. Psychological Impact: Significantly reduces PTSD, anxiety, and depression in...
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