--- name: interpreting-emergency-ecgs language: en description: Analyzes 12-lead ECGs for acute findings requiring emergent intervention. Use when reading emergency ECGs, identifying STEMI patterns, or flagging critical arrhythmias. tags: - analysis - emergency-medicine metadata: author: casemark practice_areas: - Emergency Medicine document_types: - Interpretation Report skill_modes: - Analysis - Interpretation --- # Interpreting Emergency ECGs Analyzes 12-lead ECGs for acute findings requiring emergent intervention, using a systematic approach to identify STEMI patterns, life-threatening arrhythmias, and high-risk ECG signatures. ## Why This Skill Exists The 12-lead ECG is the single most important initial diagnostic test in acute chest pain evaluation and is required within 10 minutes of ED arrival per ACC/AHA guidelines. STEMI misdiagnosis or delayed cath lab activation carries catastrophic consequences — door-to-balloon time >90 minutes is associated with a 7.5% increase in in-hospital mortality per 30-minute delay. Conversely, false-positive cath lab activations waste resources and expose patients to unnecessary invasive procedures (false activation rates range 10-30% across institutions). Beyond ACS, the emergency ECG must be screened for lethal arrhythmias (complete heart block, wide-complex tachycardia), metabolic emergencies (severe hyperkalemia), drug toxicity (sodium channel blockade, QT prolongation), and structural pathology (PE, pericarditis, Brugada). Emergency physicians must interpret ECGs with higher sensitivity than specificity — the cost of a miss far exceeds the cost of a false alarm. This skill provides a systematic, reproducible framework for emergency ECG interpretation. --- ## Checkpoint A: Pre-Draft Intake (Mandatory) 1. What is the clinical context (chief complaint, age, sex)? (Default: always interpret in clinical context) 2. Is a prior ECG available for comparison? (Default: request from EMR if available) 3. What is the time of symptom onset relative to the ECG acquisition? (Default: document both timestamps) 4. Is the patient currently symptomatic during this ECG? (Default: document symptom status at time of tracing) 5. What medications is the patient taking (digoxin, antiarrhythmics, QT-prolonging agents)? (Default: query medication list) 6. Does the patient have a pacemaker or ICD? (Default: document device presence and type) 7. What is the patient's potassium level if known? (Default: check point-of-care metabolic panel) ### Documents to Request - Prior ECG tracings (most recent and baseline) - Current medication list with focus on cardiac and QT-prolonging drugs - Pacemaker/ICD interrogation report if applicable - Prior cardiac catheterization or stress test results - Known baseline bundle branch block or axis deviation --- ## Step 1: Systematic Rate and Rhythm Assessment Follow this exact sequence on every ECG before pattern recognition: ### Rate Calculation - Regular rhythm: 300 / (number of large boxes between R-R) = rate - Irregular rhythm: count QRS complexes in 10 seconds × 6 - Normal: 60-100 bpm | Bradycardia: <60 | Tachycardia: >100 ### Rhythm Determination Checklist 1. Is the rhythm regular or irregular? 2. Is there a P wave before every QRS? 3. Is there a QRS after every P wave? 4. Is the PR interval constant? 5. Is the QRS narrow (<120 ms) or wide (≥120 ms)? ### Axis Assessment - Normal axis: Lead I (+), aVF (+) - Left axis deviation: Lead I (+), aVF (−) — consider LAFB, LVH, inferior MI - Right axis deviation: Lead I (−), aVF (+) — consider RVH, PE, lateral MI, LPFB - Extreme axis: Lead I (−), aVF (−) — consider ventricular rhythm, lead misplacement --- ## Step 2: Interval Measurement and Block Identification | Interval | Normal | Abnormal | Emergency Significance | |----------|--------|----------|----------------------| | PR | 120-200 ms | >200 ms = 1st degree AV block; progressively lengthening = 2nd degree Type I; dropped beats without lengthening = 2nd degree Type II; complete dissociation = 3rd degree | 2nd degree Type II and 3rd degree = emergent pacing | | QRS | <120 ms | 120-200 ms = BBB or aberrancy; >200 ms = ventricular origin or severe toxicity | New BBB in ACS context = consider STEMI equivalent | | QTc | <440 ms (M), <460 ms (F) | >500 ms = high risk for Torsades de Pointes | Discontinue offending agents, replete Mg2+ and K+ | ### Bundle Branch Block Differentiation **RBBB (V1 = rSR', V6 = qRS, wide S in I and V6):** - Commonly benign but new RBBB in acute chest pain = consider PE or RV strain **LBBB (V1 = rS or QS, V6 = tall R without Q, I = monomorphic R):** - New LBBB + symptoms = cath lab activation per Sgarbossa criteria - **Sgarbossa Criteria (≥3 points = STEMI):** - Concordant ST elevation ≥1 mm in leads with positive QRS = 5 points - ST depression ≥1 mm in V1-V3 = 3 points - Discordant ST elevation ≥5 mm (or use Smith-modified ratio >0.25) = 2 points --- ## Step 3: ST Segment and Acute Ischemia Evaluation ### STEMI Recognition by Territory | Territory | Leads with ST Elevation | Culprit Artery | |-----------|------------------------|----------------| | Anterior | V1-V4 | LAD | | Lateral | I, aVL, V5-V6 | LCx or diagonal | | Inferior | II, III, aVF | RCA (85%) or LCx (15%) | | Right ventricular | V4R (obtain if inferior STEMI) | Proximal RCA | | Posterior | V7-V9 (obtain if tall R in V1-V2 with ST depression) | PDA or LCx | **STEMI criteria (in ≥2 contiguous leads):** - ST elevation ≥1 mm in limb leads - ST elevation ≥2 mm in V2-V3 (men ≥40), ≥2.5 mm V2-V3 (men <40), ≥1.5 mm V2-V3 (women) ### STEMI Equivalents (require same urgency) - de Winter T waves: upsloping ST depression at J point with tall symmetric T waves in precordial leads (LAD occlusion) - Wellens syndrome: deep T-wave inversions or biphasic T waves in V2-V3 (critical LAD stenosis — NOT during pain) - Hyperacute T waves: tall, broad, symmetric T waves preceding ST elevation (very early STEMI) - New LBBB with positive Sgarbossa criteria - Posterior STEMI: ST depression V1-V3 with tall R waves (confirm with V7-V9) ### Non-STEMI Patterns - Diffuse ST depression with ST elevation in aVR = left main or severe 3-vessel disease — cardiology emergent consult - Dynamic T-wave inversions in the same territory = unstable angina or NSTEMI evolution --- ## Step 4: Non-ACS Emergency Patterns | Pattern | ECG Findings | Emergency Action | |---------|-------------|------------------| | Hyperkalemia | Peaked T waves → widened QRS → sine wave → asystole | Calcium gluconate 10 mL of 10% IV over 2-3 min | | Severe hypokalemia | Prominent U waves, flattened T waves, ST depression | Replete K+ aggressively, cardiac monitoring | | PE (right heart strain) | S1Q3T3, RBBB, TWI V1-V4, sinus tachycardia, RAD | CTA pulmonary angiography, anticoagulation | | Pericarditis | Diffuse ST elevation (concave up), PR depression, Spodick sign | NSAIDs + colchicine, rule out myocarditis | | Brugada Type 1 | Coved ST elevation ≥2 mm in V1-V2 with T-wave inversion | Cardiology consult, avoid triggering drugs, consider ICD | | Digitalis toxicity | Scooped ST ("Salvador Dali"), PAT with block, bidirectional VT | Digibind (digoxin-specific Fab fragments) | | Sodium channel blockade (TCA, cocaine) | Wide QRS >100 ms, tall R in aVR >3 mm | Sodium bicarb boluses 1-2 mEq/kg IV | | WPW | Short PR, delta wave, wide QRS | If AFib with WPW: procainamide or cardioversion; AVOID AV nodal blockers | --- ## Step 5: Documentation and Communication ### ECG Interpretation Documentation Template ``` ECG Time: [HH:MM] | Clinical Context: [chief complaint, age, sex] Rate: [ ] bpm | Rhythm: [regular/irregular, sinus/non-sinus] Axis: [normal/LAD/RAD] | PR: [ ] ms | QRS: [ ] ms | QTc: [ ] ms ST Changes: [describe by lead group] T-Wave Changes: [describe] Comparison to Prior: [new/unchanged/improved] Interpretation: [final impression] Action Taken: [cath lab activation / serial ECG ordered / cardiology consulted / none needed] ``` ### Critical Value Communication - STEMI or STEMI-equivalent: verbal notification to attending + cath lab activation within 3 minutes of identification - New complete heart block or wide-complex tachycardia: immediate bedside physician notification - QTc >500 ms: alert provider, review medication list, place on telemetry - Hyperkalemia pattern: immediate point-of-care potassium + treatment protocol --- ## Checkpoint B: Post-Draft Alignment (Mandatory) 1. Was the ECG interpreted using a systematic approach (rate → rhythm → axis → intervals → ST/T)? 2. Were STEMI criteria applied correctly with contiguous lead requirements and sex-specific thresholds? 3. Were STEMI equivalents (de Winter, Wellens, posterior MI) actively screened for? 4. Were non-ACS emergencies (hyperkalemia, PE, toxicity) considered in the differential? 5. Was the interpretation communicated to the treating provider with appropriate urgency? --- ## Quality Audit - [ ] ECG acquisition time documented and within 10 minutes of arrival for chest pain - [ ] Rate, rhythm, axis, and all intervals (PR, QRS, QTc) explicitly stated - [ ] ST segment changes described by lead group with millimeter measurements - [ ] STEMI criteria evaluated using sex-and-age-appropriate thresholds - [ ] STEMI equivalents actively screened (de Winter, Wellens, hyperacute T, posterior MI) - [ ] Comparison to prior ECG documented (or "no prior available") - [ ] Non-ACS emergency patterns screened (hyperkalemia, PE, WPW, toxicity) - [ ] Clinical context stated in interpretation (not interpreted in isolation) - [ ] Critical findings communicated verbally with time and recipient documented - [ ] Serial ECG plan documented if initial ECG non-diagnostic with ongoing symptoms - [ ] Lead placement quality assessed (appropriate R-wave progression, no lead reversal signs) - [ ] QTc calculated and medication list cross-checked if prolonged - [ ] Pacemaker or device presence noted in interpretation if applicable --- ## Guidelines 1. Never interpret an ECG in clinical isolation — always correlate with the presenting complaint, age, sex, and symptom timeline. 2. Obtain a 12-lead ECG within 10 minutes of arrival for any patient with chest pain, dyspnea, syncope, or palpitations — this is a CMS core quality measure. 3. If the first ECG is non-diagnostic but symptoms persist, repeat the ECG every 15-30 minutes — STEMI can evolve from a normal baseline in minutes. 4. Always obtain right-sided leads (V4R) in inferior STEMI to evaluate for RV involvement — RV infarction contraindicates nitroglycerin and requires volume resuscitation. 5. A normal ECG does not exclude ACS — sensitivity of a single ECG for acute MI is only 45-60%. 6. Treat the patient, not the ECG — if clinical suspicion for STEMI is high despite an ambiguous tracing, activate the cath lab and let the interventionalist make the final call. 7. QTc >500 ms is a medical emergency requiring medication review, electrolyte repletion (Mg2+ ≥2.0, K+ ≥4.0), and continuous telemetry monitoring. 8. In wide-complex tachycardia of uncertain origin, treat as ventricular tachycardia until proven otherwise — the safest initial approach is always to assume the worst-case diagnosis.