Source:http://www4.wiwiss.fu-berlin.de/dailymed/resource/drugs/1674
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Verapamil Hydrochloride (Tablet, Film Coated, Extended Release)
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Essential hypertension: The dose of verapamil HCl extended-release should be individualized by titration and the drug should be administered with food. Initiate therapy with 180 mg of extended-release verapamil HCl given in the morning. Lower initial doses of 120 mg a day may be warranted in patients who may have an increased response to verapamil (e.g., the elderly or small people). Upward titration should be based on therapeutic efficacy and safety evaluated weekly and approximately 24 hours after the previous dose. The antihypertensive effects of verapamil HCl extended-release are evident within the first week of therapy. If adequate response is not obtained with 180 mg of verapamil HCl extended-release, the dose may be titrated upward in the following manner: When switching from immediate release verapamil to extended-release verapamil, the total daily dose in milligrams may remain the same.
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Verapamil hydrochloride is a calcium ion influx inhibitor (slow-channel blocker or calcium ion antagonist). The tablets are designed for extended-release of the drug in the gastrointestinal tract; extended-release characteristics are not altered when the tablet is divided in half. Verapamil hydrochloride is not chemically related to other cardioactive drugs. Verapamil hydrochloride is chemically designated as Benzeneacetonitrile,��-[3-[[2-(3.4- dimethoxyphenyl)ethyl]-methylamino]propyl]-3.4-dimethoxy-��-(1-methylethyl)-monohydrochloride and has the following structural formula: CHNO.HCl M. W. 491.07 Verapamil hydrochloride is a white or practically white crystalline powder, practically odorless with a bitter taste. It is soluble in water, methanol, and chloroform. Each extended-release tablet, for oral administration, contains 240 mg, 180 mg or 120 mg verapamil hydrochloride. In addition to verapamil hydrochloride the tablets contain the following inactive ingredients: sodium alginate, microcrystalline cellulose, povidone, magnesium stearate. The coating for verapamil 240 mg tablets contains: hydroxypropyl cellulose, hypromellose, titanium dioxide, polyethylene glycol, D&C Yellow No. 10 Aluminum lake. The coating for verapamil 180 mg tablets contains: hypromellose, titanium dioxide, polyethylene glycol, FD&C Yellow No. 6 Aluminum lake, polysorbate 80. The coating for verapamil 120 mg tablets contains: hypromellose, titanium dioxide, polyethylene glycol, polydextrose powder, triacetin, synthetic yellow iron oxide. The 180 mg and 240 mg meets USP Drug release test #2. The 120 mg USP Drug release test is pending.
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Verapamil HCl is a calcium ion influx inhibitor (slow-channel blocker or calcium ion antagonist) that exerts its pharmacologic effects by modulating the influx of ionic calcium across the cell membrane of the arterial smooth muscle as well as in conductile and contractile myocardial cells.<br/>Mechanism of Action:<br/>Essential Hypertension: Verapamil exerts antihypertensive effects by decreasing systemic vascular resistance, usually without orthostatic decreases in blood pressure or reflex tachycardia; bradycardia (rate less than 50 beats/min) is uncommon (1.4%). During isometric or dynamic exercise verapamil does not alter systolic cardiac function in patients with normal ventricular function. Verapamil does not alter total serum calcium levels. However, one report suggested that calcium levels above the normal range may alter the therapeutic effect of verapamil.<br/>Other Pharmacological Actions of Verapamil Include the Following: Verapamil dilates the main coronary arteries and coronary arterioles, both in normal and ischemic regions, and is a potent inhibitor of coronary artery spasm, whether spontaneous or ergonovine-induced. This property increases myocardial oxygen delivery in patients with coronary artery spasm and is responsible for the effectiveness of verapamil in vasospastic (Prinzmetal's or variant) as well as unstable angina at rest. Whether this effect plays any role in classical effort angina is not clear, but studies of exercise tolerance have not shown an increase in the maximum exercise rate-pressure product, a widely accepted measure of oxygen utilization. This suggests that, in general, relief of spasm or dilation of coronary arteries is not an important factor in classical angina. Verapamil regularly reduces the total systemic resistance (afterload) against which the heart works both at rest and at a given level of exercise by dilating peripheral arterioles. Electrical activity through the AV node depends, to a significant degree, upon calcium influx through the slow channel. By decreasing the influx of calcium, verapamil prolongs the effective refractory period within the AV node and slows AV conduction in a rate-related manner. Normal sinus rhythm is usually not affected, but in patients with sick sinus syndrome, verapamil may interfere with sinus node impulse generation and may induce sinus arrest or sinoatrial block. Atrioventricular block can occur in patients without preexisting conduction defects (see WARNINGS). Verapamil does not alter the normal atrial action potential or intraventricular conduction time, but depresses amplitude, velocity of depolarization and conduction in depressed atrial fibers. Verapamil may shorten the antegrade effective refractory period of the accessory bypass tract. Acceleration of ventricular rate and/or ventricular fibrillation has been reported in patients with atrial flutter or atrial fibrillation and a coexisting accessory AV pathway following administration of verapamil (see WARNINGS). Verapamil has a local anesthetic action that is 1.6 times that of procaine on an equimolar basis. It is not known whether this action is important at the doses used in man.<br/>Pharmacokinetics and Metabolism: With the immediate-release formulation, more than 90% of the orally administered dose of verapamil HCl Is absorbed. Because of rapid biotransformation of verapamil during its first pass through the portal circulation, bioavailability ranges from 20% to 35%. Peak plasma concentrations are reached between 1 and 2 hours after oral administration. Chronic oral administration of 120 mg of verapamil hydrochloride every 6 hours resulted in plasma levels of verapamil ranging from 125 to 400 ng/mL, with higher values reported occasionally. A nonlinear correlation between the verapamil dose administered and verapamil plasmalevel does exist. No relationship has been established between the plasma concentration of verapamil and a reduction in blood pressure. In early dose titration with verapamil a relationship exists between verapamil plasma concentrations and prolongation of the PR interval. However, during chronic administration this relationship may disappear. The mean elimination half-life in single-dose studies ranged from 2.8 to 7.4 hours. In these same studies, after repetitive dosing, the half-life increased to a range from 4.5 to 12.0 hours (after less than 10 consecutive doses given 6 hours apart). Half-life of verapamil may increase during titration. Aging may affect the pharmacokinetics of verapamil. Elimination half-life may be prolonged in the elderly. In multiple-dose studies under fasting conditions, the bioavailability, measured by AUC, of extended-release verapamil was similar to immediate release verapamil; rates of absorption were, of course, different. In a randomized, single dose, crossover study using healthy volunteers, administration of verapamil hydrochloride extended-release tablets with food produced lower peak concentrations, delayed time to peak, and lesser total absorption (AUC), than when the product was administered to fasting subjects. Similar results were demonstrated for plasma norverapamil. Food thus produces decreased bioavailability (AUC) but a narrower peak-to-trough ratio. Good correlation of dose and response is not available, but controlled studies of extended-release verapamil have shown effectiveness of doses similar to the effective doses of immediate-release verapamil. In healthy man, orally administered verapamil HCl undergoes extensive metabolism in the liver. Twelve metabolites have been identified in plasma; all except norverapamil are present in trace amounts only. Norverapamil can reach steady-state plasma concentrations approximately equal to those of verapamil itself. The cardiovascular activity of norverapamil appears to be approximately 20% that of verapamil. Approximately 70% of an administered dose is excreted as metabolites in the urine and 16% or more in the feces within 5 days. About 3% to 4% is excreted in the urine as unchanged drug. Approximately 90% is bound to plasma proteins. In patients with hepatic insufficiency, metabolism of immediate-release verapamil is delayed and elimination half-life prolonged up to 14 to 16 hours (see PRECAUTIONS); the volume of distribution is increased and plasma clearance reduced to about 30% of normal. Verapamil clearance values suggest that patients with liver dysfunction may attain therapeutic verapamil plasma concentrations with one-third of the oral daily dose required for patients with normal liver function. After four weeks of oral dosing (120 mg q.i.d.), verapamil and norverapamil levels were noted in the cerebrospinal fluid with estimated partition coefficient of 0.06 for verapamil and 0.04 for norverapamil. In ten healthy males, administration of oral verapamil (80 mg every 8 hours for 6 days) and a single dose of ethanol (0.8 g/kg) resulted in a 17% increase in mean peak ethanol concentrations (106.45��21.40 to 124.23��24.74 mg���hr/dL) compared to placebo. The area under the blood ethanol concentration versus time curve (AUC over 12 hours) increased by 30% (365.67��93.52 to 475.07��97.24 mg���hr/dL). Verapamil AUCs were positively correlated (r=0.71) to increased ethanol blood AUC values (See PRECAUTIONS, Drug Interactions.)<br/>Hemodynamics and Myocardial Metabolism: Verapamil reduces afterload and myocardial contractility. Improved left ventricular diastolic function in patients with IHSS and those with coronary heart disease has also been observed with verapamil HCl. In most patients, including those with organic cardiac disease, the negative inotropic action of verapamil is countered by reduction of afterload and cardiac index is usually not reduced. However, in patients with severe left ventricular dysfunction,(e.g., pulmonary wedge pressure above 20 mm Hg or ejection fraction less than 30%), or in patients taking beta-adrenergic blocking agents or other cardiodepressant drugs, deterioration of ventricular function may occur (see Drug Interactions).<br/>Pulmonary Function: Verapamil does not induce broncho-constriction and, hence, does not impair ventilatory function.
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Verapamil Hydrochloride Extended-release Tablets are contraindicated in:
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Verapamil Hydrochloride Extended-release 240 mg Tablets, USP are supplied as ivory, capsule shaped, film-coated, scored and debossed with 7300 on one side, and with on the other side. Verapamil Hydrochloride Extended-release 180 mg Tablets, USP are supplied as light orange, capsule shaped, film-coated, scored and debossed with 7301 on one side, and with on the other side. Verapamil Hydrochloride Extended-release 120 mg Tablets, USP are supplied as ivory, round, film-coated, unscored and debossed with 120 on one side and on the other side. 240 mg (ivory) Size bottle of 60 bottle of 90 bottle of 100 bottle of 500 Unit-dose boxes of 100 tablets 180 mg (light orange) Size bottle of 100 bottle of 500 bottle of 1000 Unit-dose boxes of 100 tablets 120 mg (ivory) Size bottle of 100 bottle of 1000 Unit-dose boxes of 100 tablets Store between 15��-25��C (59��-77��F). (See USP). Protect from light and moisture. Dispense in a tight, light-resistant container as defined in the USP. Use child-resistant closure (as required). Manufactured by: Ivax Pharmaceuticals, Inc. Miami, FL 33137 0172 04/04 B9
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dailymed-ingredient:D&C_Yellow_No._10_aluminum_lake,
dailymed-ingredient:hydroxypropyl_cellulose,
dailymed-ingredient:hypromellose,
dailymed-ingredient:magnesium_stearate,
dailymed-ingredient:microcrystalline_cellulose,
dailymed-ingredient:polyethylene_glycol,
dailymed-ingredient:povidone,
dailymed-ingredient:sodium_alginate,
dailymed-ingredient:titanium_dioxide
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General:<br/>Use in Patients with Impaired Hepatic Function: Since verapamil is highly metabolized by the liver, it should be administered cautiously to patients with impaired hepatic function. Severe liver dysfunction prolongs the elimination half-life of immediate-release verapamil to about 14 to 16 hours; hence, approximately 30% of the dose given to patients with normal liver function should be administered to these patients. Careful monitoring for abnormal prolongation of the PR interval or other signs of excessive pharmacologic effects (seeOVERDOSAGE) should be carried out.<br/>Use in Patients with Attenuated (Decreased) Neuromuscular Transmission: It has been reported that verapamil decreases neuromuscular transmission in patients with Duchenne's muscular dystrophy, prolongs recovery from the neuromuscular blocking agent vecuronium, and causes a worsening of myasthenia gravis. It may be necessary to decrease the dosage of verapamil when it is administered to patients with attenuated neuromuscular transmission.<br/>Use in Patients with Impaired Renal Function: About 70% of an administered dose of verapamil is excreted as metabolites in the urine. Verapamil is not removed by hemodialysis. Until further data are available, verapamil should be administered cautiously to patients with impaired renal function. These patients should be carefully monitored for abnormal prolongation of the PR interval or other signs of overdosage (see OVERDOSAGE).<br/>Drug Interactions:<br/>Cytochrome inducers/inhibitors: In vitro metabolic studies indicate that verapamil is metabolized by cytochrome P450 CYP3A4, CYP1A2, CYP2C8, CYP2C9 and CYP2C18. Clinically significant interactions have been reported with inhibitors of CYP3A4 (eg, erythromycin, ritonavir) causing elevation of plasma levels of verapamil while inducers of CYP3A4 (eg, rifampin) have caused a lowering of plasma levels of verapamil; therefore, patients should be monitored for drug interactions.<br/>Aspirin: In a few reported cases, coadministration of verapamil with aspirin has led to increased bleeding times greater than observed with aspirin alone.<br/>Grapefruit juice: The intake of grapefruit juice may increase drug levels of verapamil.<br/>Beta-blockers: Concomitant therapy with beta-adrenergic blockers and verapamil may result in additive negative effects on heart rate, atrioventricular conduction and/or cardiac contractility. The combination of extended-release verapamil and beta-adrenergic blocking agents has not been studied. However, there have been reports of excessive bradycardia andAV block, including complete heart block, when the combination has been used for the treatment of hypertension. For hypertensive patients, the risks of combined therapy may outweigh the potential benefits. The combination should be used only with caution and close monitoring. Asymptomatic bradycardia (36 beats/min) with a wandering atrial pacemaker has been observed in a patient receiving concomitant timolol (a beta-adrenergic blocker) eyedrops and oral verapamil. A decrease in metoprolol and propranolol clearance has been observed when either drug is administered concomitantly with verapamil. A variable effect has been seen when verapamil and atenolol were given together.<br/>Digitalis: Clinical use of verapamil in digitalized patients has shown the combination to be well tolerated digoxin doses are properly adjusted. However, chronic verapamil treatment can increase serum digoxin levels by 50% to 75% during the first week of therapy, and this can result in digitalis toxicity. In patients with hepatic cirrhosis the influence of verapamil on digoxin kinetics is magnified. Verapamil may reduce total body clearance and extrarenal clearance of digitoxin by 27% and 29%, respectively. Maintenance digitalis doses should be reduced when verapamil is administered, and the patient should be carefully monitored to avoid over- or underdigitalization. Whenever overdigitalization is suspected, the daily dose of digitalis should be reduced or temporarily discontinued. On discontinuation of verapamil HCl use, the patient should be reassessed to avoid underdigitalization.<br/>Antihypertensive Agents: Verapamil administered concomitantly with oral antihypertensive agents (e. vasodilators, angiotensin-converting enzyme inhibitors, diuretics, beta-blockers) will usually have an additive effect on lowering blood pressure. Patients receiving these combinations should be appropriately monitored. Concomitant use of agents that attenuate alpha-adrenergic function with verapamil may result in reduction in blood pressure that is excessive in some patients. Such an effect was observed in one study following the concomitant administration of verapamil and prazosin.<br/>Antiarrhythmic Agents:<br/>Other:<br/>Carcinogenesis, Mutagenesis, Impairment of Fertility: An 18-month toxicity study in rats, at a low multiple (6-fold) of the maximum recommended human dose, and not the maximum tolerated dose, did not suggest a tumorigenic potential. There was no evidence of a carcinogenic potential of verapamil administered in the diet of rats for two years at doses of 10, 35, and 120 mg/kg/day or approximately 1, 3.5, and 12 times, respectively, the maximum recommended human daily dose (480 mg/day or 9.6 mg/kg/day). Verapamil was not mutagenic in the Ames test in 5 test strains at 3 mg per plate with or without metabolic activation. Studies in female rats at daily dietary doses up to 5.5 times (55 mg/kg/day) the maximum recommended human dose did not show impaired fertility. Effects on male fertility have not been determined.<br/>Pregnancy:<br/>Pregnancy Category C: Reproduction studies have been performed in rabbits and rats at oral doses up to 1.5 (15 mg/kg/day) and 6 (60 mg/kg/day) times the human oral daily dose, respectively, and have revealed no evidence of teratogenicity. In the rat, however, this multiple of the human dose was embryocidal and retarded fetal growth and development, probably because of adverse maternal effects reflected in reduced weight gains of the dams. This oral dose has also been shown to cause hypotension in rats. There are no adequate and well-controlled studies in pregnant women. Because animal reproduction studies are not always predictive of human response, this drug should be used during pregnancy only if clearly needed. Verapamil crosses the placental barrier and can be detected in umbilical vein blood at delivery.<br/>Labor and Delivery: It is not known whether the use of verapamil during labor or delivery has immediate or delayed adverse effects on the fetus, or whether it prolongs the duration of labor or increases the need for forceps delivery or other obstetric intervention. Such adverse experiences have not been reported in the literature, despite a long history of use of verapamil in Europe in the treatment of cardiac side effects of beta-adrenergic agonist agents used to treat premature labor.<br/>Nursing Mothers: Verapamil is excreted in human milk. Because of the potential for adverse reactions in nursing infants from verapamil, nursing should be discontinued while verapamil is administered.<br/>Pediatric Use: Safety and efficacy of verapamil HCl in children below the age of 18 years have not been established.<br/>Animal Pharmacology and/or Animal Toxicology: In chronic animal toxicology studies, verapamil caused lenticular and/or suture line changes at 30 mg/kg/day or greater, and frank cataracts at 62.5 mg/kg/day or greater in the beagle dog but not in the rat. Development of cataracts due to verapamil has not been reported in man.
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Overdose with verapamil may lead to pronounced hypotension, bradycardia, and conduction system abnormalities (e.g., junctional rhythm with AV dissociation and high degree AV block, including asystole). Other symptoms secondary to hypotension (e.g., metabolic acidosis, hyperglycemia, hyperkalemia, renal dysfunction, and convulsions) may be evident. Treat all verapamil overdoses as serious and maintain observation for at least 48 hours (especially extended-release verapamil), preferably under continuous hospital care. Delayed pharmacodynamic consequences may occur with the extended-release formulation. Verapamil is known to decrease gastrointestinal transit time. In overdose, tablets of verapamil extended-release have occasionally been reported to form concretions within the stomach or intestines. These concretions have not been visible on plain radiographs of the abdomen, and no medical means of gastrointestinal emptying is of proven efficacy in removing them. Endoscopy might reasonably be considered in cases of massive overdose when symptoms are unusually prolonged. Treatment of overdosage should be supportive. Beta-adrenergic stimulation or parenteral administration of calcium injections may increase calcium ion flux across the slow channel and have been used effectively in treatment of deliberate overdosage with verapamil. Continued treatment with large doses of calcium may produce a response. In a few reported cases, overdose with calcium channel blockers that was initially refractory to atropine became more responsive to this treatment when the patients received large doses (close to 1 gram/hour for more than 24 hours) of calcium chloride. Verapamil cannot be removed by hemodialysis. Clinically significant hypotensive reactions or high-degree AV block should be treated with vasopressor agents or cardiac pacing, respectively. Asystole should be handled by the usual measures, including cardiopulmonary resuscitation.
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Verapamil Hydrochloride
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Verapamil Hydrochloride (Tablet, Film Coated, Extended Release)
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Serious adverse reactions are uncommon when verapamil therapy is initiated with upward dose titration within the recommended single and total daily dose. See WARNINGS for discussion of heart failure, hypotension, elevated liver enzymes, AV block, and rapid ventricular response. Reversible (upon discontinuation of verapamil) non-obstructive, paralytic ileus has been infrequently reported in association with the use of verapamil. The following reactions to orally administered verapamil occurred at rates greater than 1.0% or occurred at lower rates but appeared clearly drug-related in clinical trials in 4,954 patients. In clinical trials related to the control of ventricular response in digitalized patients who had atrial fibrillation or atrial flutter, ventricular rates below 50/min at rest occurred in 15% of patients and asymptomatic hypotension occurred in 5% of patients. The following reactions, reported in 1% or less of patients, occurred under conditions (open trials, marketing experience) where a causal relationship is uncertain; they are listed to alert the physician to a possible relationship: Cardiovascular: angina pectoris, atrioventricular dissociation, chest pain, claudication, myocardial infarction, palpitations, purpura (vasculitis), syncope. Digestive System: diarrhea, dry mouth, gastrointestinal distress, gingival hyperplasia. Hemic and Lymphatic: ecchymosis or bruising. Nervous System: cerebrovascular accident, confusion, equilibrium disorders, extrapyramidal symptoms, insomnia, muscle cramps, paresthesia, psychotic symptoms, shakiness, somnolence. Skin: arthralgia and rash, exanthema, hair loss, hyperkeratosis, macules, sweating, urticaria, Stevens-Johnson syndrome, erythema multiforme. Special Senses: blurred vision, tinnitus. Urogenital: gynecomastia, impotence, galactorrhea/hyperprolactinemia, increased urination, spotty menstruation.<br/>Treatment of Acute Cardiovascular Adverse Reactions: The frequency of cardiovascular adverse reactions which require therapy is rare; hence, experience with their treatment is limited. Whenever severe hypotension or complete AV block occur following oral administration of verapamil, the appropriate emergency measures should be applied immediately; e.g., intravenously administered norepinephrine bitartrate, atropine sulfate, isoproterenol HCl (all in the usual doses), or calcium gluconate (10% injection). In patients with hypertrophic cardiomyopathy (IHSS), alpha-adrenergic agents (phenylephrine HCl, metaraminol bitartrate or methoxamine HCl) should be used to maintain blood pressure, and isoproterenol and norepinephrine should be avoided. If further support is necessary, dopamine HCl or dobutamine HCl may be administered. Actual treatment and dosage should depend on the severity of the clinical situation and thejudgment and experience of the treating physician.
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Heart Failure: Verapamil has a negative inotropic effect, which in most patients is compensated by its afterload reduction (decreased systemic vascular resistance) properties without a net impairment of ventricular performance. In clinical experience with 4,954 patients, 87 (1.8%) developed congestive heart failure or pulmonary edema. Verapamil should be avoided in patients with severe left ventricular dysfunction (e.g., ejection fraction less than 30%), or moderate to severe symptoms of cardiac failure and in patients with any degree of ventricular dysfunction if they are receiving a beta-adrenergic blocker (see Drug Interactions). Patients with milder ventricular dysfunction should, if possible, be controlled with optimum doses of digitalis and/or diuretics before verapamil treatment. ( Note interactions with digoxin under PRECAUTIONS).<br/>Hypotension: Occasionally, the pharmacologic action of verapamil may produce a decrease in blood pressure below normal levels, which may result in dizziness or symptomatic hypotension. The incidence of hypotension observed in 4,954 patients enrolled in clinical trials was 2.5%. In hypertensive patients, decreases in blood pressure below normal are unusual. Tilt-table testing (60 degrees) was not able to induce orthostatic hypotension.<br/>Elevated Liver Enzymes: Elevations of transaminases with and without concomitant elevations in alkaline phosphatase and bilirubin have been reported. Such elevations have sometimes been transient and may disappear even in the face of continued verapamil treatment. Several cases of hepatocellular injury related to verapamil have been proven by rechallenge; half of these had clinical symptoms (malaise, fever, and/or right upper quadrant pain) in addition to elevation of SGOT, SGPT, and alkaline phosphatase. Periodic monitoring of liver function in patients receiving verapamil is therefore prudent.<br/>Accessory Bypass Tract (Wolff-Parkinson-White or Lown-Ganong-Levine): Some patients with paroxysmal and/or chronic atrial fibrillation or atrial flutter and a coexisting accessory AV pathway have developed increased antegrade conduction across the accessory pathway bypassing the AV node, producing a very rapid ventricular response or ventricular fibrillation after receiving intravenous verapamil (or digitalis). Although a risk of this occurring with oral verapamil has not been established, such patients receiving oral verapamil may be at risk and its use in these patients is contraindicated (see CONTRAINDICATIONS). Treatment is usually DC-cardioversion. Cardioversion has been used safely and effectively after oral verapamil hydrochloride.<br/>Atrioventricular Block: The effect of verapamil on AV conduction and the SA node may cause asymptomatic first degree AV block and transient bradycardia, sometimes accompanied by nodal escape rhythms. PR-interval prolongation is correlated with verapamil plasma concentrations, especially during the early titration phase of therapy. Higher degrees of AV block, however, were infrequently (0.8%) observed. Marked first-degree block or progressive development to second- or third-degree AV block requires a reduction in dosage or, in rare instances, discontinuation of verapamil HCl and institution of appropriate therapy, dependingupon the clinical situation.<br/>Patients with Hypertrophic Cardiomyopathy (IHSS): In 120 patients with hypertrophic cardiomyopathy most of them refractory or intolerant to propranolol) who received therapy with verapamil at doses up to 720 mg/day, a variety of serious adverse effects were seen. Three patients died in pulmonary edema; all had severe left ventricular outflow obstruction and a past history of left ventricular dysfunction. Eight other patients had pulmonary edema and/or severe hypotension; abnormally high (greater than 20 mm Hg) pulmonary wedge pressure and a marked left ventricular outflow obstruction were present in most of these patients. Concomitant administration of quinidine (see Drug Interactions) preceded the severe hypotension in 3 of the 8 patients (2 of whom developed pulmonary edema). Sinus bradycardia occurred in 11% of the patients, second-degree AV block in 4% and sinus arrest in 2%. It must be appreciated that this group of patients had a serious disease with a high mortality rate. Most adverse effects responded well to dose reduction, and only rarely did verapamil have to be discontinued.
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Verapamil HCl Extended-release Tablets are indicated for the management of essential hypertension.
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Verapamil Hydrochloride
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