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Transcript
DEADLY ARRHYTHMIAS LMHER Oct 25, 2016 or… DEADLY RHYTHMS AND ECGS YOU DON’T WANT TO MISS IN THE ER DISCLAIMER ! These are obviously not all the deadly ECGs and rhythms you can see in an ER. However, they are some of the ones you could realistically come across in a rural ER. GOALS To identify and know the treatment for some deadly arrhythmias and ECGs in the Emergency Room WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical alternans” WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical alternans” ATRIAL FIBRILLATION/FLUTTERDECOMPENSATED • Normally Atrial Fibrillation only drops cardiac output by 5+/- %. • Subsequently most patients are only mildly symptomatic. • However if the ventricular rate is vey rapid and the patient has some underlying cardiac disease, atrial fibrillation can be life threatening. ATRIAL FIBRILLATION/FLUTTERDECOMPENSATED 78 year old woman presents in Atrial Fibrillation with a ventricular rate of 185. BP 82/45. Patient looks unwell. Treatment? ATRIAL FIBRILLATION/FLUTTERDECOMPENSATED Shock ? 100 - 200 J May work if new Atrial Fib, but if chronic rarely works. Pre medicate the patient. ? Ketamine 0.3-0.5 mg/kg Synchronized biphasic shock 200 J. If that doesn’t work, you need to get the rate down, but only after you get the BP up! ATRIAL FIBRILLATION/FLUTTERDECOMPENSATED Phenylephrine 50-200 mcg every minute. Keep giving until the diastolic is over 60 or MAP over 65. Now slow the rate. Calcium channel blocker: Diltiazem 2.5 mg/min (ie slowly) (max 50 mg) or Verapamil 1 mg/min (max 25 mg) ATRIAL FIBRILLATION/FLUTTERDECOMPENSATED If rate not coming down, consider Magnesium Re-shocking Call cardiology! WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical alternans” PROFOUND BRADYCARDIA • ACLS teaches that bradycardias are treated with atropine, external pacing and pacemakers. • That treats the ‘symptom’ but not the cause. CAUSES OF BRADYCARDIA What are the common causes of bradycardia? • Heart tissue damage related to aging or heart attack • Infection of heart tissue (myocarditis) • Hypothyroidism • Electrolyte imbalance – hyperkalemia • Medications – CCB, beta blockers CAUSES OF BRADYCARDIA What are the common causes of bradycardia? In the ER, with acute Bradycardia ALWAYS look for: Electrolytes (hyperkalemia) Drug Toxicity (CCB, BBlockers) CASE OF BRADYCARDIA 63 year old male presents to the ER feeling short of breath and fatigued. The nurse says ‘this fellow doesn’t look well’. His vitals are 88/60, HR ~ 30bpm, Sats 97% on 2 liters. Afebrile “take a look at his ECG” CASE OF BRADYCARDIA CASE OF BRADYCARDIA What do you see on his ECG? - Severe bradycardia (HR ~ 30) - Barely visible P waves - Broad QRS complexes - Peaked T waves V2-5 CAUSE OF THIS BRADYCARDIA? Hyperkalemia TREATMENT OF SYMPTOMATIC HYPERKALEMIA 1. Calcium Gluconate (1000 mg = 10 ml of a 10% solution) over 2-3 minutes. (try to avoid Calcium Chloride unless you have a central vein access) 2. Then 10 units regular insulin in 500 ml 10% dextrose given IV over 60 minutes. Monitor serum glucose. Onset 15 minutes, peaks 30-60 minutes, last 4-6 hours. 3. Kayexalate 15 gm qid po. (at this point be calling for help) WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical alternans” NARROW COMPLEX TACHYARRHYTHMIAS • By far the most common narrow complex tachyarrhythmia is Supraventricular Tachycardia. • However always consider: Regular narrow complex: - Sinus tachycardia, AV reentrant tachycardia, Atrial flutter Irregular narrow complex: - Atrial Fibrillation, Multifocal atrial tachycardia NARROW COMPLEX TACHYARRHYTHMIAS Supraventricular Tachycardia. • SVT more common in women. Mean age of onset is ~ 30 years. • Most common symptoms are palpitation (HR ~ 120-240), dizziness, dyspnea and chest pain. • 20 – 50 % patients may have ST depression on ECG, which is usually due to repolarization changes, not ischemia. SUPRAVENTRICULAR TACHYCARDIA TREATMENT If unstable, shock. Pre-medicate Synchronized Biphasic 200 j. SUPRAVENTRICULAR TACHYCARDIA TREATMENT If stable: Vagal maneuvers ? SUPRAVENTRICULAR TACHYCARDIA Adenosine 6 mg IV push, repeat x 1 of 12 mg IV. ?Mix (Use cautiously in patients with severe bronchospastic asthma and severe CAD Or Verapamil 5-10 mg IV over 2 minutes. Diltiazem 15-20 mg IV over 2 minutes. Or Metoprolol 2.5 – 5 mg IV over 2 minutes Digoxin 0.25-0.5 mg IV WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical alternans” VENTRICULAR FIBRILLATION & PULSELESS V. TACH These should NEVER be diagnosed by an ECG! A patient with either of these rhythms is dead. ‘Treatment’ Start CPR Shock ! WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical alternans” THE aVR LEAD “all the waves are negative in lead AVR” THE aVR LEAD So when is AVR ‘abnormal’ and so what? Wide QRS (> 120 ms or 3 small squares) and prominent R wave in AVR 26 YEAR OLD WITH DROWSINESS. 26 YEAR OLD WITH DROWSINESS. Wide QRS, Prominent R wave in aVR = Tricyclic Overdose 26 YEAR OLD WITH DROWSINESS. A QRS of > 100 ms is a predictor of seizures and arrhythmias in these patients And an R wave of 3 mm or more is even more of a predictor of seizures and arrhythmias than the QRS width THE aVR LEAD So when is AVR ‘abnormal’ and so what? ST elevation in AVR > V1 ST elevation in aVR of > 0.5 mm is a strong predictor of LAD occlusion or 3 vessel disease or diffuse subendocardial ischemia (all of these are BAD) ST ELEVATION IN a VR IS GREATER THAN IN V1 ANOTHER ST ELEVATION IN aVR WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical alternans” QT INTERVAL QT INTERVAL The QT interval is from the start of the Q wave to the end of the T wave = ventricular depolarization and repolarization. The QT interval is inversely proportional to the heart rate. So the faster the rate, the shorter the QT and vice versa. So we calculate the “corrected QT” or QTc which estimates the QT interval at a heart rate of 60 bpm. Thankfully, this is done digitally on the new ECG machines! QT INTERVAL QTc is ‘prolonged’ if > 440ms in men or 460ms in women. QTc > 500 ms is associated with risk of torsade's de pointes. A shortened QTc < 350 ms is associated with increased risk of Paroxysmal Atrial and Ventricular Fibrillation and sudden cardiac death. (this is a congenital syndrome) CAUSES OF PROLONGED QT Drugs Hypo: kalemia magnesemia calcemia thermia Ischemia Raised ICP DRUGS CAUSING PROLONGED QT Antipsychotics – basically all of them! Tricyclic antidepressants Most other antidepressants (SSRI, NSSRI) Antihistamines Others: macrolides, quinine, chloroquine. HYPOKALEMIA – QT 500MS AND PROMINENT U WAVES IN V1-4 HYPOCALCEMIA – QT 500MS INCREASES ICP On ECG: QTc prolongation Widespread giant T-wave inversions (“cerebral T waves”) Bradycardia (Cushing reflex) INCREASES ICP INCREASES ICP MORE SUBTLE ECG WHICH ARRHYTHMIAS CAN BE DEADLY? Generally ANY rhythm that leads to cardiovascular compromise. Ones covered here are: • Atrial Fibrillation/Flutter- Decompensated • Profound Bradycardia • Supraventricular Tachycardia • Ventricular Fibrillation/ Pulseless Ventricular Tachycardia • AVR – the forgotten lead in ECGs • All that ‘QT interval stuff’ • “Electrical Alternans” ELECTRICAL ALTERNANS This is alternating tall and short QRS complexes. Usually will also be seen with tachycardia and low voltage QRS complexes. 58 YEAR OLD WITH SOB AND CHEST PAIN 58 YEAR OLD WITH SOB AND CHEST PAIN Large pericardial effusion ELECTRICAL ALTERNANS The alternating tall and short QRS complexes is thought to be due to the heart swinging back and forth within the fluid filled pericardial sac. The small QRS are again due to the surrounding fluid interference with the ECG. TAKE HOME POINTS 1. Decompensated Atrial Fib. Don’t go trying to control the rate right away, get the BP up! Phenylephrine. 2. Profound Bradycardia. Don’t just treat the brady, look for causes. Do electrolytes stat! Think of meds as cause. 3. SVT – know your drugs – adenosine, CCB 4. V Fib/Pulseless V Tach. You better know this cold! TAKE HOME POINTS 5. aVR lead. Usually waves are all negative. Wide QRS with prominent R = TCA overdose. ST elevation (especially if > ST in V1) think LAD occlusion or bad ischemia generally. 6. QTc prolonged – worry about torsade de pointes (TdP). Think of the causes. “electrolytes hypos, ischemia, ICP, drugs” 7. QTc shortened – worry about congenital QT and sudden death. TAKE HOME POINTS 8. If you see Electrical Alternans, assess hemodynamic status, do a cardiac EDE stat. Be prepared to do a pericardiocentesis. THE END
