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Drug Interactions between digoxin and verapamil

This report displays the potential drug interactions for the following 2 drugs:

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Interactions between your drugs

Moderate

verapamil digoxin

Applies to: verapamil and digoxin

ADJUST DOSE: Verapamil increases digoxin levels significantly in most patients. Verapamil decreases renal and extrarenal clearance of digoxin. Serum digoxin levels may increase by 50% to 75% during the first week of concomitant verapamil therapy. Increases may be larger in patients with hepatic cirrhosis. Digoxin and verapamil have additive effects in slowing AV conduction. In clinical trials with digitalized patients with atrial fibrillation or atrial flutter, 15% of patients developed ventricular rates of less than 50/min and 5% developed asymptomatic hypotension.

MANAGEMENT: If verapamil and digoxin are used together to control a supraventricular tachyarrhythmia, the dosage of each drug may have to be reduced. Despite the possible negative inotropic effects of verapamil, digoxin dosage probably will not have to be increased when a patient with congestive heart failure is given verapamil. Increased digoxin concentrations may offset the negative inotropic effects of verapamil. Patients should be closely monitored for clinical and laboratory evidence of digoxin safety and efficacy while taking verapamil and evaluated for underdigitalization when verapamil is discontinued. Patients should be advised to notify their physicians if they experience signs of toxicity such as nausea, anorexia, visual changes, slow pulse, or irregular heartbeats. Calcium channel blockers such as felodipine, or amlodipine, isradipine, and nicardipine appear to affect digoxin levels to a lesser extent or not at all and may be considered as alternatives.

References (24)
  1. Pedersen KE, Dorph-Pedersen A, Hvidt S, Klitgaard NA, Nielsen-Kudsk F (1981) "Digoxin-verapamil interaction." Clin Pharmacol Ther, 30, p. 311-6
  2. Klein HO, Lang R, Weiss E, et al. (1982) "The influence of verapamil on serum digoxin concentration." Circulation, 65, p. 998-1003
  3. Pedersen KE, Dorph-Pedersen A, Hvidt S, Klitgaard NA, Pedersen KK (1982) "The long-term effect of verapamil on plasma digoxin concentration and renal digoxin clearance in healthy subjects." Eur J Clin Pharmacol, 22, p. 123-7
  4. Baky SH, Singh BN (1982) "Verapamil hydrochloride: pharmacological properties and role in cardiovascular therapeutics." Pharmacotherapy, 2, p. 328-50
  5. Maragno I, Gianotti C, Tropeano PF, et al. (1987) "Verapamil-induced changes in digoxin kinetics in cirrhosis." Eur J Clin Pharmacol, 32, p. 309-11
  6. McTavish D, Sorkin EM (1989) "Verapamil: an updated review of its pharmacodynamic and pharmacokinetic properties, and therapeutic use in hypertension." Drugs, 38, p. 19-76
  7. Hedman A, Angelin B, Arvidsson A, et al. (1991) "Digoxin-verapamil interaction: reduction of biliary but not renal digoxin clearance in humans." Clin Pharmacol Ther, 49, p. 256-62
  8. Gordon M, Goldenberg LM (1986) "Clinical digoxin toxicity in the aged in association with co-administered verapamil." J Am Geriatr Soc, 34, p. 659-62
  9. Rendtorff C, Johannessen AC, Halck S, Klitgaard NA (1990) "Verapamil-digoxin interaction in chronic hemodialysis patients." Scand J Urol Nephrol, 24, p. 137-9
  10. Merin RG, Moller IW (1988) "Cardiac arrest following intravenous verapamil may be related to concomitant digoxin therapy as well as halothane." Br J Anaesth, 61, p. 366
  11. Rodin SM, Johnson BF, Wilson J, et al. (1988) "Comparative effects of verapamil and isradipine on steady-state digoxin kinetics." Clin Pharmacol Ther, 43, p. 668-72
  12. Belz GG, Doering W, Munkes R, Matthews J (1983) "Interaction between digoxin and calcium antagonists and antiarrhythmic drugs." Clin Pharmacol Ther, 33, p. 410-7
  13. Rodin SM, Johnson BF (1988) "Pharmacokinetic interactions with digoxin." Clin Pharmacokinet, 15, p. 227-44
  14. Zatuchni J (1984) "Verapamil-digoxin interaction." Am Heart J, 108, p. 412-3
  15. Johannessen A, Rendtorff C, Poulsen S (1985) "Digoxin intoxication induced by verapamil in an uremic patient ." Clin Nephrol, 24, p. 158-9
  16. Pedersen KE, Christiansen BD, Kjaer K, Klitgaard NA, Nielsen-Kudsk F (1983) "Verapamil-induced changes in digoxin kinetics and intraerythrocytic sodium concentration." Clin Pharmacol Ther, 34, p. 8-13
  17. Marcus FI (1985) "Pharmacokinetic interactions between digoxin and other drugs." J Am Coll Cardiol, 5, a82-90
  18. Kuhlmann J, Marcin S (1985) "Effects of verapamil on pharmacokinetics and pharmacodynamics of digitoxin in patients." Am Heart J, 110, p. 1245-50
  19. Kuhlmann J (1985) "Effects of verapamil, diltiazem, and nifedipine on plasma levels and renal excretion of digitoxin." Clin Pharmacol Ther, 38, p. 667-73
  20. Ito S, Woodland C, Harper PA, Koren G (1993) "The mechanism of the verapamil-digoxin interaction in renal tubular cells (LLC-PK1)." Life Sci, 53, PL399-403
  21. Bauer LA, Horn JR, Pettit H (1996) "Mixed-effect modeling for detection and evaluation of drug interactions: digoxin-quinidine and digoxin-verapamil combinations." Ther Drug Monit, 18, p. 46-52
  22. (2001) "Product Information. Covera-HS (verapamil)." Searle
  23. Drescher S, Glaeser H, Murdter T, Hitzl M, Eichelbaum M, Fromm MF (2003) "P-glycoprotein-mediated intestinal and biliary digoxin transport in humans." Clin Pharmacol Ther, 73, p. 223-31
  24. Balayssac D, Authier N, Cayre A, Coudore F (2005) "Does inhibition of P-glycoprotein lead to drug-drug interactions?" Toxicol Lett, 156, p. 319-29

Drug and food interactions

Moderate

verapamil food

Applies to: verapamil

GENERALLY AVOID: Consumption of large quantities of grapefruit juice may be associated with significantly increased plasma concentrations of oral verapamil. The mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall by certain compounds present in grapefruits. One study reported no significant effect of a single administration of grapefruit juice on the pharmacokinetics of verapamil in ten hypertensive patients receiving chronic therapy. In another study conducted in nine healthy male volunteers, administration of 120 mg oral verapamil twice daily for 3 days following pretreatment with 200 mL grapefruit juice twice daily for 5 days resulted in a 57% increase in S-verapamil peak plasma concentration (Cmax), a 36% increase in S-verapamil systemic exposure (AUC), a 40% increase in R-verapamil Cmax, and a 28% increase in R-verapamil AUC compared to administration following orange juice. Elimination half-life and renal clearance of both S- and R-verapamil were not affected by grapefruit juice, and there were no significant effects on blood pressure, heart rate, or PR interval. A third study reported a 1.63-fold increase in Cmax and a 1.45-fold increase in AUC of (R,S)-verapamil in 24 young, healthy volunteers given verapamil sustained-release 120 mg twice daily for 7 days with 250 mL grapefruit juice four times daily on days 5 through 7. Two subjects developed PR interval prolongation of more than 350 ms during grapefruit juice coadministration. A high degree of interindividual variability has been observed in these studies. The interaction was also suspected in a case report of a 42-year-old woman who developed complete heart block, hypotension, hypoxic respiratory failure, severe anion gap metabolic acidosis, and hyperglycemia following accidental ingestion of three verapamil sustained-release 120 mg tablets over a span of six hours. The patient's past medical history was remarkable only for migraine headaches, for which she was receiving several medications including verapamil. Prior to admission, the patient had a 2-week history of poorly controlled migraine, and the six hours preceding hospitalization she suffered from worsening headache and palpitations progressing to altered sensorium. An extensive workup revealed elevated verapamil and norverapamil levels more than 4.5 times above the upper therapeutic limits. These levels also far exceeded those reported in the medical literature for patients taking verapamil 120 mg every 6 hours, or 480 mg in a 24-hour period. The patient recovered after receiving ventilator and vasopressor support. Upon questioning, it was discovered that the patient had been drinking large amounts of grapefruit juice (3 to 4 liters total) the week preceding her admission due to nausea. No other sources or contributing factors could be found for the verapamil toxicity.

MANAGEMENT: Patients treated with oral verapamil should avoid the consumption of large amounts of grapefruit or grapefruit juice to prevent any undue fluctuations in serum drug levels. Patients should be advised to seek medical attention if they experience edema or swelling of the lower extremities; sudden, unexplained weight gain; difficulty breathing; chest pain or tightness; or hypotension as indicated by dizziness, fainting, or orthostasis.

References (9)
  1. McAllister RG, Jr (1982) "Clinical pharmacology of slow channel blocking agents." Prog Cardiovasc Dis, 25, p. 83-102
  2. (2001) "Product Information. Covera-HS (verapamil)." Searle
  3. Zaidenstein R, Dishi V, Gips M, Soback S, Cohen N, Weissgarten J, Blatt A, Golik A (1998) "The effect of grapefruit juice on the pharmacokinetics of orally administered verapamil." Eur J Clin Pharmacol, 54, p. 337-40
  4. Ho PC, Ghose K, Saville D, Wanwimolruk S (2000) "Effect of grapefruit juice on pharmacokinetics and pharmacodynamics of verapamil enantiomers in healthy volunteers." Eur J Clin Pharmacol, 56, p. 693-8
  5. Fuhr U, Muller-Peltzer H, Kern R, et al. (2002) "Effects of grapefruit juice and smoking on verapamil concentrations in steady state." Eur J Clin Pharmacol, 58, p. 45-53
  6. Bailey DG, Dresser GK (2004) "Natural products and adverse drug interactions." Can Med Assoc J, 170, p. 1531-2
  7. Bailey DG, Malcolm J, Arnold O, Spence JD (2004) "Grapefruit juice-drug interactions. 1998." Br J Clin Pharmacol, 58, S831-40; discussion S841-3
  8. Arayne MS, Sultana N, Bibi Z (2005) "Review: grape fruit juice - drug interactions." Pak J Pharm Sci, 18, p. 45-57
  9. Pillai U, Muzaffar J, Sandeep S, Yancey A (2009) "Grapefruit juice and verapamil: a toxic cocktail." South Med J, 102, p. 308-9
Moderate

verapamil food

Applies to: verapamil

GENERALLY AVOID: Verapamil may increase the blood concentrations and intoxicating effects of ethanol. The exact mechanism of interaction is unknown but may involve verapamil inhibition of ethanol metabolism. In 10 healthy, young volunteers, verapamil (80 mg orally every 8 hours for 6 days) increased the mean peak blood concentration (Cmax) and the 12-hour area under the concentration-time curve (AUC) of ethanol (0.8 g/kg single oral dose) by 17% and 30%, respectively, compared to placebo. Verapamil AUCs were positively correlated to increased ethanol blood AUC values. Subjectively (i.e. each subject's perception of intoxication as measured on a visual analog scale), verapamil also significantly increased the area under the ethanol effect versus time curve but did not change the peak effect or time to peak effect.

MANAGEMENT: Patients treated with verapamil should be counseled to avoid alcohol consumption.

References (2)
  1. Bauer LA, Schumock G, Horn J, Opheim K (1992) "Verapamil inhibits ethanol elimination and prolongs the perception of intoxication." Clin Pharmacol Ther, 52, p. 6-10
  2. (2001) "Product Information. Isoptin (verapamil)." Knoll Pharmaceutical Company
Moderate

verapamil food

Applies to: verapamil

MONITOR: Calcium-containing products may decrease the effectiveness of calcium channel blockers by saturating calcium channels with calcium. Calcium chloride has been used to manage acute severe verapamil toxicity.

MANAGEMENT: Management consists of monitoring the effectiveness of calcium channel blocker therapy during coadministration with calcium products.

References (14)
  1. Henry M, Kay MM, Viccellio P (1985) "Cardiogenic shock associated with calcium-channel and beta blockers: reversal with intravenous calcium chloride." Am J Emerg Med, 3, p. 334-6
  2. Moller IW (1987) "Cardiac arrest following intravenous verapamil combined with halothane anaesthesia." Br J Anaesth, 59, p. 522-6
  3. Oszko MA, Klutman NE (1987) "Use of calcium salts during cardiopulmonary resuscitation for reversing verapamil-associated hypotension." Clin Pharm, 6, p. 448-9
  4. Schoen MD, Parker RB, Hoon TJ, et al. (1991) "Evaluation of the pharmacokinetics and electrocardiographic effects of intravenous verapamil with intravenous calcium chloride pretreatment in normal subjects." Am J Cardiol, 67, p. 300-4
  5. O'Quinn SV, Wohns DH, Clarke S, Koch G, Patterson JH, Adams KF (1990) "Influence of calcium on the hemodynamic and anti-ischemic effects of nifedipine observed during treadmill exercise testing." Pharmacotherapy, 10, p. 247
  6. Woie L, Storstein L (1981) "Successful treatment of suicidal verapamil poisoning with calcium gluconate." Eur Heart J, 2, p. 239-42
  7. Morris DL, Goldschlager N (1983) "Calcium infusion for reversal of adverse effects of intravenous verapamil." JAMA, 249, p. 3212-3
  8. Guadagnino V, Greengart A, Hollander G, Solar M, Shani J, Lichstein E (1987) "Treatment of severe left ventricular dysfunction with calcium chloride in patients receiving verapamil." J Clin Pharmacol, 27, p. 407-9
  9. Luscher TF, Noll G, Sturmer T, Huser B, Wenk M (1994) "Calcium gluconate in severe verapamil intoxication." N Engl J Med, 330, p. 718-20
  10. Bar-Or D, Gasiel Y (1981) "Calcium and calciferol antagonise effect of verapamil in atrial fibrillation." Br Med J (Clin Res Ed), 282, p. 1585-6
  11. Lipman J, Jardine I, Roos C, Dreosti L (1982) "Intravenous calcium chloride as an antidote to verapamil-induced hypotension." Intensive Care Med, 8, p. 55-7
  12. McMillan R (1988) "Management of acute severe verapamil intoxication." J Emerg Med, 6, p. 193-6
  13. Perkins CM (1978) "Serious verapamil poisoning: treatment with intravenous calcium gluconate." Br Med J, 2, p. 1127
  14. Moroni F, Mannaioni PF, Dolara A, Ciaccheri M (1980) "Calcium gluconate and hypertonic sodium chloride in a case of massive verapamil poisoning." Clin Toxicol, 17, p. 395-400
Minor

digoxin food

Applies to: digoxin

Administration of digoxin with a high-fiber meal has been shown to decrease its bioavailability by almost 20%. Fiber can sequester up to 45% of the drug when given orally. Patients should be advised to maintain a regular diet without significant fluctuation in fiber intake while digoxin is being titrated.

Grapefruit juice may modestly increase the plasma concentrations of digoxin. The mechanism is increased absorption of digoxin due to mild inhibition of intestinal P-glycoprotein by certain compounds present in grapefruits. In 12 healthy volunteers, administration of grapefruit juice with and 30 minutes before, as well as 3.5, 7.5, and 11.5 hours after a single digoxin dose (0.5 mg) increased the mean area under the plasma concentration-time curve (AUC) of digoxin by just 9% compared to administration with water. Moreover, P-glycoprotein genetic polymorphism does not appear to influence the magnitude of the effects of grapefruit juice on digoxin. Thus, the interaction is unlikely to be of clinical significance.

References (2)
  1. Darcy PF (1995) "Nutrient-drug interactions." Adverse Drug React Toxicol Rev, 14, p. 233-54
  2. Becquemont L, Verstuyft C, Kerb R, et al. (2001) "Effect of grapefruit juice on digoxin pharmacokinetics in humans." Clin Pharmacol Ther, 70, p. 311-6

Therapeutic duplication warnings

Therapeutic duplication is the use of more than one medicine from the same drug category or therapeutic class to treat the same condition. This can be intentional in cases where drugs with similar actions are used together for demonstrated therapeutic benefit. It can also be unintentional in cases where a patient has been treated by more than one doctor, or had prescriptions filled at more than one pharmacy, and can have potentially adverse consequences.

Duplication

Antiarrhythmics

Therapeutic duplication

The recommended maximum number of medicines in the 'antiarrhythmics' category to be taken concurrently is usually one. Your list includes two medicines belonging to the 'antiarrhythmics' category:

  • digoxin
  • verapamil

Note: In certain circumstances, the benefits of taking this combination of drugs may outweigh any risks. Always consult your healthcare provider before making changes to your medications or dosage.

See also

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Drug Interaction Classification

These classifications are only a guideline. The relevance of a particular drug interaction to a specific individual is difficult to determine. Always consult your healthcare provider before starting or stopping any medication.
Major Highly clinically significant. Avoid combinations; the risk of the interaction outweighs the benefit.
Moderate Moderately clinically significant. Usually avoid combinations; use it only under special circumstances.
Minor Minimally clinically significant. Minimize risk; assess risk and consider an alternative drug, take steps to circumvent the interaction risk and/or institute a monitoring plan.
Unknown No interaction information available.

Further information

Always consult your healthcare provider to ensure the information displayed on this page applies to your personal circumstances.

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