Rosen & Barkin's 5-Minute Emergency Medicine Consult (87 page)

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Authors: Jeffrey J. Schaider,Adam Z. Barkin,Roger M. Barkin,Philip Shayne,Richard E. Wolfe,Stephen R. Hayden,Peter Rosen

Tags: #Medical, #Emergency Medicine

BOOK: Rosen & Barkin's 5-Minute Emergency Medicine Consult
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Pediatric Considerations
  • Verapamil is not recommended in infants and young children as it is associated with a low cardiac output and serious cardiovascular compromise.
  • Digoxin is the 1st-line drug therapy for pediatric atrial flutter.
  • Consider cardioversion as 1st-line therapy in neonates.
MEDICATION
  • Amiodarone: 150 mg IV over 10 min, then continuous infusion at 1 mg/min for 6 hr, then 0.5 mg/min infusion over 18 hr; supplemental 150 mg infusions can be dosed PRN to a max. daily dose of 2.2 g (peds: 5 mg/kg IV loading dose over 20–60 min, may repeat to max. of 15 mg/kg/d IV)
  • Adenosine: 6 mg IV × 1. May give 12 mg IV q1–2min × 2 if no conversion. Give all doses IV push
  • Atenolol: 5 mg IV over 5 min, may repeat in 10 min if tolerated, then 50 mg PO q12h
  • Digoxin: Loading dose 8–12 Ug/kg lean body weight, half of which is administered initially over 5 min, and remaining portion at 25% fractions at 4–8 hr intervals (peds: 8–12 μg/kg)
  • Diltiazem: 0.25 mg/kg IV over 2 min followed in 15 min by 0.35 mg/kg IV over 2 min, maintenance infusion of 10–15 mg/h titrated to heart rate
  • Dofetilide: CrCl >60 mL/min and QTc 440 msec or less) initial dose 500 μg ORALLY twice daily; determine QTc 2–3 h after 1st dose; if QTc increases by more than 15% OR is >500 msec (550 msec in patients with ventricular conduction abnormalities), reduce dose to 250 μg ORALLY twice daily; MAX. dose 500 μg ORALLY twice daily
  • Esmolol: 0.5 mg/kg over 1 min; maintenance infusion at 0.05 mg/kg/min; can repeat loading dose and increase in increments of 0.05 mg/kg/min q4min up to 0.3 mg/kg/min
  • Flecainide: A single dose of flecainide 300 mg (body weight 70 kg or greater), and flecainide 200 mg (body weight <70 kg) [3]; prior to antiarrhythmic initiation, a β-blocker or nondihydropyridine calcium channel antagonist should be administered to prevent rapid AV conduction if atrial flutter occurs
  • Ibutilide: 1 mg IV over 10 min for patients >60 kg; 0.01 mg/kg IV for patients <60 kg infused over 10 min; dose can be repeated once if normal sinus rhythm not restored within 10 min after infusion
  • Magnesium sulfate: 1–2 g diluted in D5W over 5–60 min; slower rate preferable if patient is stable.
  • Metoprolol: 5 mg IV push over 5 min at 5 min intervals to total of 15 mg, then 50 mg PO BID
  • Procainamide: 20 mg/min until arrhythmia suppressed, hypotension, QRS prolongation of 50%, or total of 17 mg/kg; may be given at rate up to 50 mg/min (peds: 15 mg/kg IV over 30 min, then 20–80 μg/kg/min continuous infusion)
  • Propranolol: 0.5–1 mg over 1 min, repeated after 2 min up to a total dose of 0.1 mg/kg (peds: 0.01–0.15 mg/kg/dose slow IV push over 5 min, max. 1 mg/dose)
  • Sotalol: 1–1.5 mg/kg over 5 min (US packaging recommends infusion over 5 h)
  • Verapamil: 2.5–5.0 mg IV bolus over 2 min; may repeat with 5–10 mg q15–30min to a max. of 20–30 mg.
FOLLOW-UP
DISPOSITION
Admission Criteria
  • New-onset atrial flutter requiring antidysrhythmics, rate control
  • Symptomatic (i.e., chest pain that warrants a rule out or cardioversion)
  • CHF
Discharge Criteria
  • New-onset atrial flutter who meet these criteria:
    • Rate or rhythm has been controlled
    • Underlying cause has been investigated and addressed
    • Anticoagulation has been initiated
    • Appropriate follow-up is arranged
  • Chronic atrial flutter with good rate control and appropriate anticoagulation
FOLLOW-UP RECOMMENDATIONS

Cardiologist: Radiofrequency ablation of atrial flutter emerging as treatment of choice for patients with symptomatic atrial flutter without identifiable reversible cause

PEARLS AND PITFALLS
  • Be aware of WPW:
    • Do not use adenosine, β-blockers, calcium channel blockers, and digoxin (Class III can be harmful).
      • Can cause increased ventricular response, which can deteriorate to ventricular fibrillation
  • Do not delay cardioversion in an unstable patient for IV placement.
  • Use β-blockers with caution in patients with pulmonary disease or CHF.
  • 4 major treatment issues:
    • Rate control
    • Prevention of systemic embolization
    • Reversion to sinus rhythm
    • Maintenance of sinus rhythm
ADDITIONAL READING
  • Clausen H, Theophilos T, Jackno K, et al. Paediatric arrhythmias in the emergency department.
    Emerg Med J.
    2012;29(9):732–737.
  • Fuster V, Ryden LE, Cannom DS, et al. ACC/AHA/ESC 2006 Guidelines for the management of patients with atrial fibrillation. A report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines and the European Society of Cardiology Committee for Practice Guidelines.
    J Am Coll Cardiol
    . 2006;48:e149.
  • Lee G, Sanders P, Kalman JM. Catheter ablation of atrial arrhythmias: State of the art.
    Lancet
    . 2012;380(9852):1509–1519.
  • Scheuermeyer FX, Grafstein E, Heilbron B, et al. Emergency department management and 1-year outcomes of patients with atrial flutter.
    Ann Emerg Med.
    2011;57(6):564–571.
  • Stiell IG, Macle L; CCS Atrial Fibrillation Guidelines Committee. Canadian Cardiovascular Society atrial fibrillation guidelines 2010; management of recent-onset atrial fibrillation and flutter in the emergency department.
    Can J Cardiol
    . 2011;27(1):38–46.
CODES
ICD9

427.32 Atrial flutter

ICD10
  • I48.3 Typical atrial flutter
  • I48.4 Atypical atrial flutter
  • I48.92 Unspecified atrial flutter
ATRIOVENTRICULAR BLOCKS
Colleen N. Roche
BASICS
DESCRIPTION
  • Impaired conduction between the atrium and the ventricle through the AV node or His–Purkinje system
  • 1st-degree AV block:
    • Prolonged conduction through the AV node
    • Ventricular impulses are not lost.
    • Generally benign, and occurs in 1.6% healthy adults.
  • 2nd-degree AV block:
    • Marked by a failure of some atrial impulses to reach ventricles
    • Mobitz Type I (Wenckebach):
      • Usually secondary to conduction deficit in AV node.
      • Progressive prolongation of the pulse-rate (PR) interval until a nonconducted P-wave and a dropped QRS complex occur
      • Generally benign, but may be a complication of an inferior wall MI
    • Mobitz Type II:
      • Conduction deficit is usually below the level of the AV node.
      • PR intervals are constant until single or multiple beats are abruptly dropped.
      • High likelihood of progression to complete heart block
      • Worse prognosis if associated with an acute MI
      • Less common than Type I
  • 3rd-degree AV block:
    • Also known as complete heart block
    • All atrial impulses are unable to reach the ventricular conducting system; a ventricular escape pacemaker then takes over, resulting in AV dissociation.
    • Constant PP and RR intervals with variable PR intervals because PP and RR intervals are independent of each other.
    • More severe symptoms occur when the block is lower in the conducting system.
    • If secondary to toxicologic agents, often resolves upon omission of offending toxin
    • Never a benign condition
ETIOLOGY
  • Essentially due to:
    • A structural lesion
    • Increase in inherent refractory period
    • Marked shortening of the supraventricular cycle
  • MI:
    • 1st-degree block and Type I 2nd-degree AV block may be associated with an inferior wall MI:
      • These blocks are transient.
      • AV conduction usually returns to normal with no increased morbidity or mortality.
    • Type II 2nd-degree AV block may be associated with an anterior wall MI:
      • 5% anterior wall MIs are associated with AV blocks.
      • Increased mortality secondary to ventricular arrhythmias and left-heart failure
  • Coronary artery disease:
    • Chronic ischemic injury can lead to fibrosis around the AV node
  • Toxicologic:
    • Digoxin
    • β-blockers
    • Calcium-channel blockers
    • Amiodarone
    • Procainamide
    • Class 1C agents: Propafenone, encainide, flecainide
    • Clonidine
  • Congenital
  • Valvular heart disease
  • Surgical trauma:
    • S/P coronary artery bypass graft or valvular replacement
  • Increased vagal tone
  • Infectious:
    • Syphilis
    • Diphtheria
    • Chagas disease
    • TB
    • Toxoplasmosis
    • Lyme disease
    • Myocarditis
    • Endocarditis
    • Rheumatic fever
    • Abscess formation in interventricular septum
  • Collagen vascular diseases
  • Infiltrative diseases:
    • Sarcoidosis
    • Amyloidosis
    • Hemochromatosis
  • Cardiomyopathy
  • Electrolyte disturbances:
    • Hyperkalemia
  • Myxedema
  • Hypothermia
Pediatric Considerations
  • Occurs in children, but is often asymptomatic
  • Associated mortality is highest in the neonatal period.
  • Associated with:
    • Congenitally acquired maternal antibodies
    • Congenital heart disease
    • Infectious etiologies, such as rheumatic fever or myocarditis
  • Be sure to consider potential toxic ingestions in pediatric patients with new AV block

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