Wolff-Parkinson-White syndrome medical therapy: Difference between revisions
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❑Performance of an [[electrophysiologic study]], with the use of [[isoprenaline]], is recommended to risk stratify individuals with asymptomatic pre-excitation who have high-risk [[occupations]]/[[hobbies]], competitive [[athletics]]<br> | ❑Performance of an [[electrophysiologic study]], with the use of [[isoprenaline]], is recommended to risk stratify individuals with asymptomatic pre-excitation who have high-risk [[occupations]]/[[hobbies]], or are competitive [[athletics]]<br> | ||
❑[[Catheter ablation]] is recommended in asymptomatic [[patients]] who are high risk in [[electrophysiology]] testing with the use of [[isoprenaline]], such as the shortest pre-excited [[RR interval]] during [[atrial fibrillation]]≤ 250 ms, [[accessory pathway]] [[effective refractory period]] ≤250 ms, multiple [[accessory pathway]]s, and an inducible [[accessory pathway]]-mediated [[tachycardia]]<br> | ❑[[Catheter ablation]] is recommended in asymptomatic [[patients]] who are high risk in [[electrophysiology]] testing with the use of [[isoprenaline]], such as the shortest pre-excited [[RR interval]] during [[atrial fibrillation]]≤ 250 ms, [[accessory pathway]] [[effective refractory period]] ≤250 ms, multiple [[accessory pathway]]s, and an inducible [[accessory pathway]]-mediated [[tachycardia]]<br> | ||
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Revision as of 13:16, 18 August 2022
Wolff-Parkinson-White syndrome Microchapters |
Differentiating Wolff-Parkinson-White syndrome from other Diseases |
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Diagnosis |
Treatment |
Case Studies |
Wolff-Parkinson-White syndrome medical therapy On the Web |
Risk calculators and risk factors for Wolff-Parkinson-White syndrome medical therapy |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor-In-Chief: Sara Zand, M.D.[2] Cafer Zorkun, M.D., Ph.D. [3]; Rim Halaby, M.D. [4]
Overview
Wolff-Parkinson-White syndrome patients who are hemodynamically unstable, as reflected by the presence of hypotension, cold extremities, mottling or peripheral cyanosis, or those who present with ischemic chest pain or decompensated heart failure should urgently undergo direct current cardioversion. The medical therapy of hemodynamically stable patients with WPW syndrome depends on the type of the tachycardia. When the ECG findings suggest orthodromic AVRT, the patient should be managed similarly to patients with supreventricular tachycardia followed by the sequential administration of adenosine, verapamil and procainamide in case of failure to improve. Among patients with antidromic AVRT, AV nodal blocking agents should be avoided and patients should be treated with either procainamide, ibutilide or flecainide. The long term treatment of patients with WPW syndrome depends on the presence or absence of symptoms and their severity. Patients who have poorly tolerated symptomatic WPW syndrome should undergo [[catheter ablation.
Acute Treatment
Atrioventricular Reentrant Tachycardia (AVRT)
- AVRT is one of the type of tachycardia that can occur in patients with WPW pattern.
- AVRT can be either orthodromic or antidromic and the treatment of them is different.
Hemodynamically Unstable Patients
- WPW syndrome patients with AVRT who are hemodynamically unstable,should urgently undergo direct current cardioversion
- The signs of instability of hemodynamic include the following:
- hypotension,
- cold extremities
- mottling
- peripheral cyanosis
- chest pain
- decompensated heart failure
- The shocks should be delivered as follows:
- Narrow regular rhythm: synchronized electrical cardioversion, 50-100 Joules
- Narrow irregular rhythm: synchronized electrical cardioversion, 120-200 Joules biphasic or 200 Joules monophasic
- Wide regular rhythm: synchronized electrical cardioversion, 100 Joules
- Wide irregular rhythm: unsynchronized electrical cardioversion, 200-360 Joules monophasic, or 100-200 Joules biphasic[1]
Orthodromic AVRT in Hemodynamically Stable Patients
- The management of WPW syndrome patients who are hemodynamically stable depends on the type of AVRT.
- When the ECG findings suggest orthodromic AVRT and QRS complex is narrow, the patient should be managed similarly to patients with supreventricular tachycardia.
- The management should begin with vagal maneuvers such as carotid sinus massage and valsalva maneuver.
- If the patient's tachycardia does not resolve, the patient should be administered IV adenosine.
- In case of failure to improve, administration of ibutilide may be considered followed by procainamide
The sequence of therapeutic decisions is summarized below.[2]
Recommendations for acute treatment of orthodromic AVRT |
Vagal maneuver (Class I, Level of Evidence B): |
❑ Carotid sinus massage for 5-10 seconds in the absence of bruit |
Adenosin(Class I, Level of Evidence B) : |
❑ Effective in conversion of AVRT in 90-95% patients |
Synchronized cardioversion : (Class I, Level of Evidence B) |
❑ Highly effective in termination of AVRT ❑ In unstable hemodynamic or stable hemodynamic and ineffectiveness of vagal maneuver or adenosine is recommended |
Ibutilide or intravenous procainamide:(Class I, Level of Evidence C) |
❑ effective in hemodynamic stable and preexcited AF by slowing conduction over the accessory pathway |
Intravenous diltiazem,verapamil ,beta blockers : (Class 2a, Level of Evidence B-C) |
❑ Effective for acute treatment of orthodromic AVRT without pre-excitation on resting ECG during sinus rhythm(LOR=B) |
Intravenous betablockers,diltiazem,verapamil (Class 2b, Level of Evidence B): |
❑ Acute termination of orthodromic AVRT with pre-excitation on resting ECG without response to other treatment |
Intravenous digoxin,intravenous amiodarone,intravenous or oral beta blockers,diltiazem,verapamil : (Class 3, Harm, Level of Evidence B) |
❑ Harmful in acute termination of peexcitated AF due to increased risk of ventricular fibrillation by these mechanisms: |
Antidromic AVRT in Hemodynamically Stable Patients
- In antidromic AVRT, the antegrade conduction of the electrical signals occurs through the accessory pathway, while the retrograde conduction occurs through either the AV node or a second accessory pathway.[2]
- In antidromic AVRT, AV nodal blocking agents should be avoided.
- Digoxin, calcium channel blockers, beta blockers and adenosine should be avoided.
- Adenosine may lead to atrial fibrillation with rapid ventricular response.
- Procainamide or ibutilide are recommended .
Treatment of Antidromic AVRT in Hemodynamically Stable Patients | ||
Medication | Dosage | Notes |
Procainamide | 100 mg infusion diluted to 100mg/ml at a rate of 25-50 mg/min every 5 minutes | ❑ Give until the arrhythmia is suppressed or until 500 mg has been administered ❑ Wait 10 minutes or longer to administer new dosage |
Ibutilide | 1 mg IV infusion over 10 minutes | ❑ Repeat the dosage if the tachycardia continues Contraindications: hypersensitivity to ibutilide or any component of the formulation, QTc >440 msec |
Atrial Fibrillation
- WPW syndrome with atrial fibrillation should be suspected whenever the ECG reveals an irregular rhythm with absent P wave in the presence of a heart rate more than 240 beats per minute.
Hemodynamically Unstable Patients
In hemodynamically unstable patients, urgent direct current cardioversion should be performed.[1]
Long Term Treatment
Management of patients with AVRT includes the following:[2]
Recommendations for longterm treatment of orthodromic AVRT |
Catheter ablation (Class I, Level of Evidence B): |
❑ Successful rate of ablation for AF+ AVRT is 93-95% |
Oral beta blockers, diltiazem, verapamil (Class I, Level of Evidence C): |
❑ Effective in patients without preexcitation in resting ECG |
Oral flecainide or propafenone (Class 2a, Level of Evidence B): |
❑ For patients with AVRT and/or pre-excited AF that are not candidates or do not prefer catheter ablation |
Oral dofetilide or sotalol (Class 2b, Level of Evidence C): |
❑ For patients with AVRT and/or pre-excited AF that are not candidated or do not prefer catheter ablation |
Oral amiodarone (Class 2b, Level of Evidence C ): |
❑ For patients with AVRT and/or pre-excited AF that are not candidated or do not prefer catheter ablation |
Oral beta blockers, diltiazem, verapamil (Class 2b, Level of Evidence C): |
❑For patients with AVRT and/or pre-excited AF that are not candidates or do not prefer catheter ablation |
Oral digoxin (Class 2b, Level of Evidence C): |
❑ In AVRT without pre-excited AF that are not candidates or do not prefer catheter ablation |
Oral digoxin (Class 3,Harm, Level of Evidence C): |
❑ Harmful in AVRT or AF and preexcitation on resting ECG due to decreased refractory period of accessory pathway and increased risk of VF |
Recommendations for the management of patients with asymptomatic pre-excitation
(Class I, Level of Evidence B): | |
❑Performance of an electrophysiologic study, with the use of isoprenaline, is recommended to risk stratify individuals with asymptomatic pre-excitation who have high-risk occupations/hobbies, or are competitive athletics | |
(Class I, Level of Evidence C): | |
❑ Catheter ablation is recommended in high-risk patients with asymptomatic pre-excitation after discussing the risks, especially of heart block associated with ablation of anteroseptal or mis-septal accessory pathway, and benefits of the procedure | |
(Class 2a, Level of Evidence C): | |
❑ Patient should be clinically followed in the presence of asymptomatic pre-excitation and a low-risk accessory pathway at invasive risk stratification | |
(Class 2b, Level of Evidence C): | |
❑ Catheter ablation may be considered in a patient with asymptomatic pre-excitation, and a low-risk AP at invasive or non-invasive risk stratification |
The above table adopted from 2019 ESC Guideline[3] |
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References
- ↑ 1.0 1.1 "Part 8: Adult Advanced Cardiovascular Life Support". Retrieved 3 April 2014.
- ↑ 2.0 2.1 2.2 Page, Richard L.; Joglar, José A.; Caldwell, Mary A.; Calkins, Hugh; Conti, Jamie B.; Deal, Barbara J.; Estes III, N.A. Mark; Field, Michael E.; Goldberger, Zachary D.; Hammill, Stephen C.; Indik, Julia H.; Lindsay, Bruce D.; Olshansky, Brian; Russo, Andrea M.; Shen, Win-Kuang; Tracy, Cynthia M.; Al-Khatib, Sana M. (2016). "2015 ACC/AHA/HRS guideline for the management of adult patients with supraventricular tachycardia". Heart Rhythm. 13 (4): e136–e221. doi:10.1016/j.hrthm.2015.09.019. ISSN 1547-5271.
- ↑ Brugada J, Katritsis DG, Arbelo E, Arribas F, Bax JJ, Blomström-Lundqvist C, Calkins H, Corrado D, Deftereos SG, Diller GP, Gomez-Doblas JJ, Gorenek B, Grace A, Ho SY, Kaski JC, Kuck KH, Lambiase PD, Sacher F, Sarquella-Brugada G, Suwalski P, Zaza A (February 2020). "2019 ESC Guidelines for the management of patients with supraventricular tachycardiaThe Task Force for the management of patients with supraventricular tachycardia of the European Society of Cardiology (ESC)". Eur Heart J. 41 (5): 655–720. doi:10.1093/eurheartj/ehz467. PMID 31504425.