Introduction
Ventricular tachycardia (VT) is an uncommon but dangerous medical condition with an extremely variable clinical presentation. Intravenous procainamide is guideline recommended and is the drug of choice for hemodynamically stable VT with a class IIa recommendation. Despite being an older drug, new evidence continues to support its use, though dosing strategies and administration techniques can make it challenging to use at the bedside.
Key Concepts
- Ventricular tachycardia is an uncommon but dangerous condition with extremely variable clinical presentation
- Procainamide is guideline recommended as the drug of choice for hemodynamically stable VT (Class IIa)
- Procainamide is an old drug with new evidence supporting its use in wide complex tachycardia
- Dosing strategies and administration techniques make it difficult to use at the bedside without clear institutional protocols
Pharmacology of Procainamide
| Parameter | Details |
|---|---|
|
Mechanism of Action
|
Class 1A anti-arrhythmic; blocks fast sodium channels, prolongs action potential, and reduces impulse conduction speed. |
|
Bolus Dose
|
Weight-based: 10–17 mg/kg over 20–60 minutes (max dose 1 g, max rate 20–50 mg/min) Fixed-dose: 100 mg every 5 minutes (max rate 50 mg/min) up to 1 g |
|
Renal Adjustments
|
eCrCl 10–50 mL/min Reduce dose by 25–50% eCrCl <10 mL/min Reduce dose by 50–75% |
|
Maintenance Infusion
|
1–6 mg/min after loading dose |
|
PK/PD
|
IV Onset: <2 min; IM: 10–30 min
IV Peak: 25–60 min; IM: 15–60 min
Duration: 3–4 hrs
Metabolism: Hepatic to active NAPA
Half-life: 2.5–4.7 hrs (NAPA: 7 hrs)
Excretion: 40–70% renally unchanged
|
|
Adverse Effects
|
Hypotension
Hepatotoxicity
Lupus-like syndrome
Positive ANA
Anaphylaxis (sulfite)
MG exacerbation
Angioedema
|
|
Drug Interactions
|
Interacts with diazepam, diltiazem, milrinone, phenytoin, and hydralazine |
|
Compatibility
|
Compatible: 0.9% NaCl, 0.45% NaCl Incompatible: D5 (variable), LR, D5NS |
Clinical Pearl
Define institutional dosing and administration policies due to variable strategies in the literature and risk of adverse events.
Overview of Key Evidence
| Author / Year | Design (n) | Intervention | Key Findings |
|---|---|---|---|
| Ortiz, 20173 |
RCT
n=62 |
Procainamide vs amiodarone for stable wide QRS tachycardia (PROCAMIO study) |
Procainamide: 67% VT termination
9% major cardiac adverse
Amiodarone: 38% termination, 41% adverse |
| Marill, 20104 |
Multicenter Cohort
n=187 |
Amiodarone vs procainamide for sustained stable VT |
Procainamide: 30% VT termination
Amiodarone: 25% termination
|
| Komura, 20105 |
Retrospective
n=90 |
Procainamide vs lidocaine for sustained monomorphic VT |
Procainamide: 75.7% VT termination
Lidocaine: 35% termination
|
| Marill, 20066 |
Case Series
n=33 |
Amiodarone for acute termination of VT |
Amio VT termination: 29%
6% needed cardioversion
|
| Gorgels, 19967 |
RCT
n=79 |
Procainamide vs lidocaine for sustained monomorphic VT |
Procainamide: 79% VT termination
Lidocaine: 19% (p<0.001)
|
| Callans, 19928 |
Observational
n=15 |
Procainamide infusion for VT termination |
93% VT termination
Median dose: 600 mg
|
| Wellens, 19779 |
Observational
n=small |
Procainamide, propranolol, and verapamil effects on VT mechanism |
Procainamide effective for recurrent VT
Early mechanistic evidence supporting procainamide |
Clinical Conclusions
Bottom Line
Procainamide is guideline-supported and demonstrates superior VT termination rates compared to both amiodarone and lidocaine in hemodynamically stable wide complex tachycardia. Clear institutional protocols are essential for safe bedside administration.
Procainamide is guideline-supported for stable VT with a Class IIa recommendation.
Use empiric 10–17 mg/kg bolus dosing up to a maximum of 1 g.
Consider renal function for bolus dose reductions (25–50% for eCrCl 10–50 mL/min; 50–75% for eCrCl <10 mL/min).
Initiate maintenance infusion at 1–6 mg/min after the loading dose to prevent VT recurrence.
Clearly define hospital protocols to avoid variability in dosing strategies and reduce adverse event risk.
Full Reference List
- Procainamide. Micromedex [Electronic version]. Greenwood Village, CO: Truven Health Analytics. Retrieved July 6, 2020, from http://www.micromedexsolutions.com/
- Long B, Koyfman A. Best Clinical Practice: Emergency Medicine Management of Stable Monomorphic Ventricular Tachycardia. J Emerg Med. 2017;52:484-492.
- Ortiz M, Martín A, Arribas F, et al. Randomized comparison of intravenous procainamide vs. intravenous amiodarone for the acute treatment of tolerated wide QRS tachycardia: the PROCAMIO study. Eur Heart J. 2017;38(17):1329-1335.
- Marill KA, deSouza IS, Nishijima DK, et al. Amiodarone or procainamide for the termination of sustained stable ventricular tachycardia: an historical multicenter comparison. Acad Emerg Med. 2010;17(3):297-306.
- Komura S, Chinushi M, Furushima H, et al. Efficacy of procainamide and lidocaine in terminating sustained monomorphic ventricular tachycardia. Circ J. 2010;74(5):864-869.
- Marill KA, deSouza IS, Nishijima DK, et al. Amiodarone is poorly effective for the acute termination of ventricular tachycardia. Ann Emerg Med. 2006;47(3):217-224.
- Gorgels AP, van den Dool A, Hofs A, et al. Comparison of procainamide and lidocaine in terminating sustained monomorphic ventricular tachycardia. Am J Cardiol. 1996;78(1):43-46.
- Callans DJ, Marchlinski FE. Dissociation of termination and prevention of inducibility of sustained ventricular tachycardia with infusion of procainamide: evidence for distinct mechanisms. J Am Coll Cardiol. 1992;19(1):111-117.
- Wellens HJ, Bär FW, Lie KI, et al. Effect of procainamide, propranolol and verapamil on mechanism of tachycardia in patients with chronic recurrent ventricular tachycardia. Am J Cardiol. 1977;40(4):579-585.
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