Drug Distribution and Clearance

Many patients receive antiarrhythmic drugs by IV bolus or infusion to improve bioavailability over the oral route of administration. The cardiovascular system then distributes the drugs throughout the body, specifically to the site of action.

Most drugs are changed, or biotransformed, into active or inactive metabolites in the liver. The kidneys are the primary sites for the excretion of those metabolites. When administering these drugs, remember that patients with impaired heart, liver, or kidney function may suffer from inadequate drug effect or toxicity. (See Drug metabolism and elimination across the life span.)

Ages and stages

Drug metabolism and elimination across the life span Neonates have a reduced ability to metabolize drugs because of the limited activity of liver enzymes at the time of birth. As the infant grows, drug metabolism improves. The glomerular filtration rate is also reduced at birth, causing neonates to eliminate drugs more slowly than adults. In older patients, advancing age usually reduces the blood supply to the liver and certain liver enzymes become less active. Consequently, the liver loses some of its ability to metabolize drugs. With reduced liver function, higher drug levels remain in circulation, causing more intense drug effects and increasing the risk of drug toxicity. Because kidney function also diminishes with age, drug elimination may be impaired, resulting in increased drug levels.

How to Give It

Here’s how to administer quinidine:

• To convert atrial flutter or fibrillation—Give 200 mg of quinidine sulfate orally every 2 to 3 hours for five to eight doses, with subsequent daily increases until sinus rhythm is restored or toxic effects develop. NOTE: It is critical to control AV node conduction before administering quinidine, as the drug can slow the atrial rate and increase conduction over the AV node, causing rapid 1:1 conduction of atrial arrhythmias. Class II or class IV medications are used for this purpose.
• Initial dosage for PSVT—Give 400 to 600 mg of quinidine sulfate orally every 6 hours.
• Initial dosage for premature atrial and ventricular contractions, paroxysmal AV junctional rhythm, paroxysmal atrial tachycardia (PAT), paroxysmal VT, or maintenance after cardioversion of atrial fibrillation or flutter—Give 200 mg of quinidine sulfate orally, then 200 to 300 mg orally every 4 to 6 hours, or 300 to 600 mg of extended-release quinidine every 8 to 12 hours. IV quinidine is no longer commercially available.
• Daily dosage for patients with life-threatening VT/VF, such as idiopathic VF or Brugada syndrome, is approximately 900 mg QD, in divided doses.

What Can Happen

Adverse cardiovascular effects of quinidine include hypotension, cardiotoxicity, VT, ECG changes (widening of the QRS complex, widened QT and PR intervals), torsades de pointes, AV block, and exacerbation of heart failure. (See Noncardiac adverse effects of quinidine)

How You Intervene

Keep the following points in mind when caring for a patient taking quinidine:

• Monitor the patient’s ECG, heart rate, and blood pressure closely. Don’t give more than 4 g/day. Adjust dosages in patients with heart failure and liver disease.
• Obtain a baseline QT interval measurement before the patient begins therapy. Watch for and notify the practitioner if the patient develops prolongation of the QT interval, a sign that the patient is predisposed to developing polymorphic VT. Also notify the practitioner if the QRS complex widens by 25% or more.
• Remember that quinidine should be avoided in patients with second- or third-degree AV block who don’t have pacemakers. It should also be avoided in patients with profound hypotension, myasthenia gravis, intraventricular conduction defects, or hypersensitivity to the drug. Use it cautiously in elderly patients and in those with renal disease, hepatic disease, or asthma.
• Avoid rapidly conducted atrial fibrillation or atrial flutter by administering AV nodal blocking agents, such as beta blockers or calcium channel blockers, before giving quinidine.
• Closely monitor patients receiving quinidine and digoxin for signs and symptoms of digoxin toxicity, such as nausea, vision changes, or arrhythmias. Digoxin levels will be increased.
• Monitor serum drug levels. The therapeutic level for arrhythmia control is 2 to 5 mcg/mL.
• Ask the patient about herb use. Concomitant use with jimsonweed may adversely affect cardiovascular function. Licorice combined with quinidine use may prolong the patient’s QT interval.

How to Give It

Here’s how to administer procainamide:

• Orally—Initial dosage is 50 mg/kg/day of conventional formulation in divided doses every 3 hours until a therapeutic level is reached. For maintenance, an extended-release form is substituted to deliver the total daily dose divided every 6 hours. An extended-release form may be used to deliver the dose divided every 12 hours.
• IM—Initial daily dosage is 50 mg/kg divided into equal doses every 3 to 6 hours.
• IV—Slow injection of 100 mg is given with the patient in a supine position, no faster than 25 to 50 mg/min until the arrhythmia is suppressed, adverse effects develop, or 500 mg has been given. The usual loading dose is 500 to 600 mg.
• IV infusion—Infuse at 1 to 6 mg/min for a maintenance dosage.

What Can Happen

Adverse cardiovascular effects of procainamide include bradycardia, hypotension, worsening heart failure, AV block, VF, and asystole. (See Noncardiac adverse effects of procainamide.)

How You Intervene

Keep the following points in mind when caring for a patient taking procainamide:

• Monitor the patient’s heart rate, blood pressure, and ECG. Notify the practitioner if the patient has hypotension or if you notice widening of the QRS complex by 50% or more. Also report a prolonged QT interval if it’s more than one-half of the R-R interval—a sign that the patient is predisposed to developing polymorphic VT.
• Warn the patient taking procainamide orally not to chew it, which causes rapid absorption and intensified drug effect.
• Monitor serum drug levels. (See Monitoring procainamide.)
• Remember that procainamide should be avoided in patients with second- or third-degree AV block who don’t have pacemakers and in patients with blood dyscrasias, myasthenia gravis, profound hypotension, or known hypersensitivity to the drug. Procainamide may also aggravate digoxin toxicity.

How to Give It

Here’s how to give disopyramide:

• Orally, 100 mg to 150 mg every 6 hours or 200 mg to 300 mg every 12 hours (controlled release formula)

What Can Happen

Adverse cardiovascular effects include sinus bradycardia in patients with sick sinus syndrome (SSS), QRS and QT prolongation by 10% to 15%, variable AV conduction changes, and proarrhythmia including VF and torsades de pointes.

How You Intervene

Keep the following points in mind when caring for a patient taking disopyramide:

• Monitor ECG and HR closely.
• Obtain 12-lead ECG for baseline and periodically for accurate interval measurements.
• Give AVN blocking agents prior to disopyramide, when treating atrial fibrillation or atrial flutter.
• Reduce dose in renal and hepatic dysfunction.
• Do not use in patients with systolic congestive heart failure (CHF).
• Check K⁺ and magnesium levels before initiating Norpace and replete if necessary.
• Avoid use of erythromycin with Norpace as it can increase levels and lead to torsades de pointes.

How to Give It

Here’s how to administer lidocaine:

• IV bolus injection—Administer 1 to 1.5 mg/kg (usually 50 to 100 mg) at 25 to 50 mg/min and repeat every 3 to 5 minutes to a maximum of 300 mg total bolus during a 1-hour period.
• IV infusion immediately following the bolus dose—Infuse at 1 to 4 mg/min.

What Can Happen

Cardiovascular adverse effects of lidocaine include hypotension, bradycardia, and cardiac arrest. (See Noncardiac adverse effects of lidocaine)

How You Intervene

Keep the following points in mind when caring for a patient receiving lidocaine:

• Monitor the patient’s heart rate, blood pressure, and ECG.
• Watch for signs and symptoms of drug toxicity. Seizures may be the first sign of toxicity. The potential for toxicity is increased if the patient has liver disease, is elderly, is taking cimetidine (Tagamet) or propranolol (Inderal), or receives an infusion of the drug for longer than 24 hours.
• Avoid use of the drug in patients known to be hypersensitive to it or in severe sinus node disease, AV block or intraventricular block in the absence of an artificial pacemaker.
• Administer cautiously with other antiarrhythmics.

How to Give It

• 150 to 200 mg every 8 hours to a maximum dose of 400 mg every 8 hours. Decrease dose in hepatic disease. No adjustment required in renal disease or with CHF.

What Can Happen

• Proarrhythmia is very rare, about 1.3%.
• Very little effect on HR, blood pressure, or cardiac output.
• Exacerbation of CHF is rare, about 2%.
• Monitor for GI side effects including nausea and CNS effects of tremor, blurred vision, dysarthria, ataxia, and confusion.

How You Intervene

• Monitor ECG for efficacy in controlling ventricular arrhythmias.
• Give medication with food to avoid GI effects.

How to Give It

The dosage for flecainide is 50 to 200 mg orally every 12 hours, to a maximum of 400 mg/day.

What Can Happen

Adverse cardiovascular effects of flecainide include bradycardia (in the presence of sinus node disease), chest pain, palpitations, heart failure, new or worsened arrhythmias, and cardiac arrest.

Flecainide can decrease the atrial rate in atrial fibrillation or atrial flutter, facilitating AV node conduction and faster ventricular rate. Class II or IV antiarrhythmic medication is given to slow AV conduction and prevent rapid ventricular response when using flecainide for atrial arrhythmias. (See Noncardiac adverse effects of flecainide.)

How You Intervene

Keep the following points in mind when caring for a patient taking flecainide:

• Monitor the patient’s heart rate, blood pressure, and ECG. Report widening of the QRS complex by 25% or more and watch closely for signs of heart failure.
• Use flecainide cautiously in SSS or in patients with heart, kidney, or liver failure. Avoid its use entirely in second- or third-degree AV block and use caution in bifascicular block.
• Administer flecainide cautiously in patients receiving cimetidine, digoxin, or propranolol.
• Correct electrolyte imbalances before starting flecainide therapy.
• Administer AV node blocking agents (Class II or IV medications) with flecainide, to avoid rapid ventricular conduction of atrial flutter or atrial fibrillation.

How to Give It

The usual dosage of propafenone is 150 to 300 mg orally every 8 hours, to a maximum dosage of 900 mg/day.

What Can Happen

Propafenone’s adverse effects on the cardiovascular system include exacerbation of heart failure, AV block, and proarrhythmia (VT, VF, and premature ventricular contraction [PVCs]). However, proarrhythmia is rare in patients treated for SVT, with a structurally normal heart. (See Noncardiac adverse effects of propafenone.)

How You Intervene

Keep the following points in mind when caring for a patient taking propafenone:

• Monitor the patient’s heart rate, blood pressure, and ECG. Report widening of the QRS complex greater than 25%. If widening occurs, the dosage may need to be reduced. Monitor the patient closely for exacerbation of heart failure.
• Correct electrolyte imbalances before starting propafenone therapy.
• Remember that propafenone should be avoided in patients with a structurally abnormal heart (low ejection fraction, previous myocardial infarction [MI], cardiomyopathy or significant left ventricular hypertrophy), bronchospastic disorders, hypotension, or sinus node disease, AV, block, or bifascicular blocks.
• Propafenone is contraindicated in the presence of CHF and cardiogenic shock, as well as in SA, AV, and intraventricular conduction disorders in the absence of an artificial pacemaker.
• Administer propafenone cautiously in patients also receiving cimetidine, propranolol, or metoprolol.
• Be aware that patients receiving digoxin along with propafenone may have increased plasma concentration of digoxin, leading to digoxin toxicity.
• Use cautiously in patients also taking warfarin (Coumadin); propafenone can increase the plasma concentration of the anticoagulant.

How to Give It

These four beta-adrenergic blockers should be administered as follows:

• Acebutolol—The normal dosage is 200 mg orally twice daily, increased as needed to a usual dosage of 600 to 1,200 mg daily.
• Propranolol—It may be given orally or IV. The oral dosage is 10 to 30 mg three or four times daily. The IV dose is 0.5 to 3.0 mg, at a rate not to exceed 1 mg/min. If necessary, a second IV dose may be administered after 2 minutes; subsequent doses may be given no sooner than every 4 hours.
• Esmolol—The loading dose is 500 mcg/kg over 1 minute, then 50 mcg/kg/min for 4 minutes. If an adequate response doesn’t occur within 5 minutes, repeat the loading dose and infuse 100 mcg/kg/min for 4 minutes. If needed, increase infusion to a maximum of 200 mcg/kg/min.
• Sotalol—The initial dosage is 80 mg orally twice daily. Most patients respond to a daily dose of 160 to 320 mg.

What Can Happen

The adverse effects of beta-adrenergic blockers on the cardiovascular system may vary, but they include bradycardia, hypotension, and AV block. (See Noncardiac adverse effects of class II beta-adrenergic blockers)

How You Intervene

Keep the following points in mind when caring for a patient taking a beta-adrenergic blocker:

• Monitor the patient’s heart rate, blood pressure, and ECG.
• Remember that beta-adrenergic blockers should be avoided in patients with symptomatic bradycardia, second- or third-degree AV block without a pacemaker, and shock. Use them cautiously in patients with diabetes mellitus (they mask the signs of hypoglycemia), heart failure, kidney disease, liver disease, myasthenia gravis, peripheral vascular disease, and hypotension.
• Keep in mind that noncardioselective beta-adrenergic blockers are contraindicated in patients with asthma or other bronchospastic disease.
• Correct electrolyte imbalances before starting therapy with a beta-adrenergic blocker.
• Remember that beta-adrenergic blockers diminish the patient’s ability to withstand exercise because the heart rate can’t increase. These drugs also block sympathetic response to shock.

How to Give It

Here’s how to administer amiodarone:

• Orally—Give 800 to 1,600 mg daily in divided doses for 1 to 3 weeks, followed by 400 to 800 mg/day for 4 weeks, followed by 200 to 400 mg/day as a maintenance dosage.
• IV infusion—Infuse 150 mg over 10 minutes (15 mg/min); then infuse 360 mg over the next 6 hours (1 mg/min), followed by 540 mg infused over 18 hours (0.5 mg/min). After the first 24 hours, a maintenance IV infusion of 720 mg per 24 hours (0.5 mg/min) should be continued.

What Can Happen

Adverse cardiovascular effects of amiodarone given by IV infusion include bradycardia, hypotension, AV block, heart failure, asystole, and pulseless electrical activity.

Long-term oral therapy can be associated with bradycardia, pulmonary fibrosis, thyroid dysfunction, elevated liver function tests, and corneal deposits, not usually leading to visual disturbances. (See Noncardiac adverse effects of amiodarone)

How You Intervene

Keep the following points in mind when caring for a patient taking amiodarone:

• Monitor the patient’s vital signs, ECG, and respiratory status.
• Monitor laboratory test results, such as electrolyte levels, liver function studies, thyroid function studies, pulmonary function studies, and chest X-rays.
• Check for signs of digoxin toxicity or increased prothrombin time. Amiodarone can increase the serum levels of digoxin and warfarin.
• Remember that amiodarone should be avoided in patients with hypersensitivity to the drug, cardiogenic shock, marked sinus bradycardia, and second- or third-degree AV block without a pacemaker. Use the drug cautiously in patients with cardiomegaly, preexisting bradycardia or sinus node disease, conduction disturbances, or depressed ventricular function.
• Be aware that the drug has a long half-life (56 days, with a range from 13 to 103 days) and therefore takes weeks to reach therapeutic levels and possibly up to 3 months to be cleared by the body.
• Know that amiodarone may increase theophylline levels in patients taking theophylline. Monitor the patient for signs of theophylline toxicity.
• Be aware that amiodarone may increase phenytoin (Dilantin) levels. Monitor phenytoin levels closely.
• Instruct the patient to wear sunscreen and protective clothing to avoid photosensitivity reactions. A blue-gray discoloration of exposed skin may occur.
• Recommend that the patient have yearly ophthalmic examinations. Within 1 to 4 months after beginning amiodarone therapy, most patients show corneal microdeposits upon slit-lamp ophthalmic examination. Instillation of methylcellulose ophthalmic solution minimizes corneal microdeposits.
• Administer the IV drug through a central venous access device to avoid phlebitis.
• The lowest possible effective maintenance dose should be used to avoid toxicity.

How to Give It

If your adult patient weighs greater than 132 lb (60 kg) or more, he or she will receive 1 mg of ibutilide IV over 10 minutes. If they weigh less than 132 lb, the dose is 0.01 mg/kg.

If the arrhythmia is still present 10 minutes after the infusion is complete, the dose may be repeated.

What Can Happen

Adverse cardiovascular effects of ibutilide include PVCs, nonsustained VT, sustained polymorphic VT, hypotension, bundle branch block, AV block, hypertension, bradycardia, tachycardia, palpitations, heart failure, and lengthening of the QT interval. Noncardiac adverse effects include headache, nausea, and renal failure.

How You Intervene

Keep these points in mind when giving ibutilide:

• Correct electrolyte abnormalities before administering ibutilide.
• Monitor the patient’s vital signs and ECG continuously during the infusion and for at least 4 hours afterward. The infusion will be stopped if the arrhythmia terminates or if the patient develops VT or marked prolongation of the QT interval, which signals the risk of polymorphic VT.
• Have emergency equipment and medication nearby for the treatment of sustained VT.
• Don’t give ibutilide to patients with a history of polymorphic VT.
• Give the drug cautiously in patients receiving digoxin (Lanoxin) because it can mask signs and symptoms of cardiotoxicity associated with excessive digoxin levels.
• Don’t administer ibutilide at the same time or within 4 hours of class Ia or other class III antiarrhythmics.
• Don’t give ibutilide with other drugs that prolong the QT interval, such as phenothiazines and tricyclic or tetracyclic antidepressants.
• Be aware that patients with atrial fibrillation that has lasted longer than 24 to 48 hours must receive anticoagulants for at least 3 weeks before the initiation of ibutilide therapy, unless atrial thrombosis is confirmed negative by transesophageal echocardiogram.

How to Give It

Dosage is based on creatinine clearance and QTc interval, which must be determined before the first dose (QT interval should be used if the heart rate is less than 60 beats/min). The usual recommended dosage is 500 mcg orally twice per day for patients with a creatinine clearance greater than 60 mL/min. The dose is 250 mcg twice daily if the creatinine clearance is 40 to 60 mL/min and 125 mcg twice daily if the creatinine clearance is 20 to 40 mL/min. QTc should be <440 ms before administration of the first dose of dofetilide.

Dofetilide is initiated in the hospital setting, with continuous cardiac monitoring, for 72 hours. The possibility of life-threatening ventricular arrhythmias is greatest during this time. Twelve-lead ECG tracings are obtained frequently to assess medication effect on the QTc interval, and dose adjustment made as indicated.

What Can Happen

Adverse cardiovascular effects of dofetilide include VF, VT, torsades de pointes, AV block, bundle branch block, heart block, bradycardia, chest pain, edema, cardiac arrest, and MI. (See Noncardiac adverse effects of dofetilide.)

How You Intervene

Remember these facts when giving dofetilide:

• Use cautiously in patients with severe hepatic impairment.
• Provide continuous ECG monitoring for at least 3 days.
• Avoid discharging the patient within 12 hours of conversion to normal sinus rhythm.
• Monitor the patient for prolonged diarrhea, sweating, and vomiting. Report these signs to the practitioner because electrolyte imbalance may increase the potential for arrhythmia development.
• Assess for hypokalemia and hypomagnesemia if the patient is receiving potassium-depleting diuretics, which increase the risk of torsades de pointes. Potassium level should be within normal range before giving dofetilide and kept in normal range. Use of hydrochlorothiazide should be avoided in patients treated with dofetilide.
• Stop antiarrhythmic therapy under careful monitoring for a minimum of three plasma half-lives before starting dofetilide.
• Don’t give dofetilide after amiodarone therapy until the amiodarone level is below 0.3 mcg/mL or until amiodarone has been stopped for at least 3 months.
• Provide a washout period of at least 2 days before starting other drug therapy if dofetilide is stopped to allow treatment with other drugs (such as those that interact with dofetilide).
• Don’t give dofetilide with grapefruit juice; it may decrease hepatic metabolism and increase the drug level.
• Don’t give with drugs that prolong the QT interval, such as phenothiazines, tricyclic or tetracyclic antidepressants, and erythromycin.
• Avoid using with cimetidine (Tagamet), ketoconazole (Nizoral), co-trimoxazole (Bactrim), verapamil (Calan), and inhibitors of CYP3A4, such as amiodarone (Cordarone), diltiazem (Cardizem), norfloxacin (Noroxin), and selective serotonin reuptake inhibitors.
• Avoid using with inhibitors of renal cationic secretion, such as megestrol (Megace), amiloride (Midamor), metformin (Glucophage), and triamterene (Dyrenium).

How to Give It

Here’s how to administer verapamil:

• Orally for chronic atrial fibrillation—Give 80 to 120 mg three or four times per day to a maximum of 480 mg/day.
• IV injection for supraventricular arrhythmias—Give 0.075 to 0.15 mg/kg (usually 5 to 10 mg) over 2 minutes; you can repeat in 30 minutes if no response occurs.

What Can Happen

Cardiovascular adverse effects of verapamil include bradycardia, AV block, hypotension, heart failure, edema, and VF. (See Noncardiac adverse effects of verapamil.)

How You Intervene

Keep the following points in mind when caring for a patient taking verapamil:

• Monitor the patient’s heart rate, blood pressure, and ECG. Also monitor liver function studies.
• Note that calcium may be given before verapamil to prevent hypotension.
• Advise the patient to change position slowly to avoid orthostatic hypotension.
• Remember that verapamil should be avoided in SSS or second- or third-degree AV block without a pacemaker and in atrial fibrillation or flutter in a patient with WPW syndrome. It also should be avoided in patients with hypersensitivity to the drug, advanced heart failure, cardiogenic shock, profound hypotension, acute MI, or pulmonary edema.
• Give the drug cautiously to patients receiving digoxin or oral beta-adrenergic blockers, elderly patients, and patients with heart failure, hypotension, liver disease, or kidney disease. Don’t give verapamil to patients receiving IV beta-adrenergic blockers.

How to Give It

Here’s how to give diltiazem:

• IV injection—Give 0.25 mg/kg (usually 20 mg) over 2 minutes; you can repeat in 15 minutes at 0.35 mg/kg (usually 25 mg) over 2 minutes.
• IV infusion—Infuse at a rate of 5 to 15 mg/hr; increase dose by 5 mg/hr increments. Continuous infusion should generally be used for ≤24 hours, because of drug accumulation.
• Oral dosing—start immediate-release oral formulation 1 hour before stopping the IV infusion. Immediate-release doses are given four times daily. Usual effective total daily dose is 360 mg, in divided doses. Once stable daily dose is reached, extended-release dosing can be given once or twice daily, depending on formulation.

What Can Happen

Adverse cardiovascular effects of diltiazem include edema, flushing, bradycardia, hypotension, heart failure, arrhythmias, conduction abnormalities, sinus node dysfunction, and AV block. (See Noncardiac adverse effects of diltiazem)

How You Intervene

Keep the following points in mind when caring for a patient receiving diltiazem:

• Monitor the patient’s heart rate, blood pressure, and ECG.
• Diltiazem should be avoided in patients with SSS or second- or third-degree AV block without a pacemaker, atrial fibrillation or flutter with WPW syndrome, advanced heart failure, cardiogenic shock, profound hypotension, acute MI, pulmonary edema, or sensitivity to the drug.
• Use cautiously in elderly patients; in patients with heart failure, hypotension, or liver or kidney disease; and in those receiving digoxin or beta-adrenergic blockers. (See Prolonged effects in elderly patients)
• Give cautiously to patients receiving IV beta-adrenergic blockers. IV diltiazem and IV beta-adrenergic blocker shouldn’t be given within a few hours of each other.
• Advise the patient to change position slowly to avoid orthostatic hypotension.

Ages and stages

Prolonged effects in elderly patients Administer diltiazem cautiously to an older adult because the half-life of the drug may be prolonged. Be especially careful if the older adult also has heart failure or impaired hepatic or renal function.

How to Give It

Administer 6 mg of adenosine IV over 1 to 2 seconds, immediately followed by a rapid flush with 20 mL normal saline solution. Because the drug’s half-life is less than 10 seconds, it needs to reach the circulation quickly. The intravenous line should be placed at the antecubital space, rather than more distal to the heart. Repeat with an IV injection of 12 mg of adenosine if the rhythm doesn’t convert within 1 to 2 minutes.

What Can Happen

Adverse cardiovascular effects of adenosine include transient arrhythmias such as a short asystolic pause at the time of conversion. Other adverse effects include hypotension (if large doses are used), facial flushing, diaphoresis, chest pressure, and recurrence of the arrhythmia. (See Noncardiac adverse effects of adenosine.)

How You Intervene

Keep the following points in mind when caring for a patient receiving adenosine:

• Monitor the patient’s heart rate, blood pressure, ECG, ventilatory rate and depth, and breath sounds for wheezes.
• Remember that adenosine should be avoided in patients with hypersensitivity to the drug, second- or third-degree AV block, or SSS without a pacemaker. Use cautiously in older adults and in patients with asthma or those receiving dipyridamole (Persantine) or carbamazepine (Tegretol).
• Store adenosine at room temperature.
• Be aware that the patient may require a higher dose or may not respond to therapy at all if he or she is also taking aminophylline or another xanthine derivative.

How to Give It

Administer atropine by a 0.5- to 1-mg IV injection repeated as needed at 3- to 5-minute intervals, to a maximum dose of 2 mg. The initial dose for asystole is 1 mg. The maximum dose is 3 mg.

What Can Happen

Adverse cardiovascular effects of atropine include tachycardia (with high doses), palpitations, bradycardia if given slowly or in a dose of less than 0.5 mg, hypotension, and chest pain and increased myocardial oxygen consumption in patients with coronary artery disease. (See Noncardiac adverse effects of atropine.)

How You Intervene

Keep the following points in mind when caring for a patient receiving atropine:

• Monitor the patient’s heart rate, blood pressure, ECG, urine output, and bowel sounds.
• Remember that atropine should be avoided in patients with hypersensitivity to belladonna, acute angle closure glaucoma, GI obstruction, obstructive uropathy, myasthenia gravis, and tachyarrhythmias.
• Use atropine cautiously in patients with renal disease, heart failure, hyperthyroidism, hepatic disease, hypertension, and acute MI. Don’t give atropine for bradycardia unless the patient is symptomatic.

How to Give It

To administer digoxin rapidly and orally or IV, give a digitalizing dose of 0.5 to 1 mg divided into two or more doses every 6 to 8 hours. The usual maintenance dosage is 0.125 to 0.5 mg daily. The dose is reduced, or the medication avoided, in the patient with renal insufficiency or renal failure.

What Can Happen

Too much digoxin in the body causes toxicity. Toxic cardiac effects include SA and AV blocks and junctional and ventricular arrhythmias. Digoxin toxicity is treated by discontinuing digoxin; correcting oxygenation and electrolyte imbalances; treating arrhythmias with phenytoin, lidocaine, atropine, or a pacemaker; giving digoxin immune fab (Digibind) to reverse life-threatening arrhythmias or blocks (reversal occurs within 30 to 60 minutes of administration); and correcting the potassium level before giving digoxin immune fab. (See Noncardiac adverse effects of digoxin.)

How You Intervene

Keep the following points in mind when caring for a patient receiving digoxin:

• Check for signs of digoxin toxicity, especially in patients with hypokalemia, hypocalcemia, hypercalcemia, or hypomagnesemia. Monitor serum electrolyte levels as ordered.
• Monitor the patient’s apical heart rate and ECG. A heart rate below 60 beats/min or a change in rhythm can signal digoxin toxicity. If this occurs, notify the practitioner.
• Remember that digoxin should be avoided in patients with known hypersensitivity to the drug; SSS, SA, or AV block (without an implanted cardiac pacemaker); VT; hypertrophic cardiomyopathy; or WPW syndrome. Use cautiously in older adults and in patients with acute MI, liver or kidney disease, or hypothyroidism.
• Withhold digoxin for 1 to 2 days before performing electrical cardioversion.
• Be sure to question the patient about herbal preparation use because digoxin reacts with many preparations. Fumitory, lily of the valley, goldenseal, motherwort, shepherd’s purse, and rue may enhance the cardiac effects of digoxin. Licorice, oleand er, Siberian ginseng, foxglove, and squill may increase the risk of digoxin toxicity.

How to Give It

To restore sinus rhythm in cardiac arrest in adults, administer epinephrine by IV injection as a 1 mg dose (10 mL of 1:10,000 solution). Each dose given by peripheral IV injection should be followed by a 20 mL flush of IV fluid to ensure quick delivery of the drug. Doses may be repeated every 3 to 5 minutes as needed. (Some practitioners advocate doses of up to 5 mg, especially for patients who don’t respond to the usual IV dose.) After initial IV administration, an infusion may be given at 1 to 4 mcg/min.

What Can Happen

Adverse cardiovascular effects include palpitations, hypertension, tachycardia, VF, anginal pain, shock, and ECG changes, including a decreased T-wave amplitude. (See Noncardiac adverse effects of epinephrine.)

How You Intervene

Keep these points in mind when administering epinephrine:

• Be sure to document the concentration of the epinephrine solution used. (Remember that 1 mg equals 1 mL of 1:1,000 or 10 mL of 1:10,000 concentration.)
• When administering IV epinephrine, monitor the patient’s heart rate, ECG rhythm, and blood pressure throughout therapy.
• Don’t mix the drug with alkaline solutions. Use D₅W, lactated Ringer’s solution, or normal saline solution or a combination of dextrose and saline solution.
• Remember that some epinephrine products contain sulfites. Use of those products usually should be avoided in patients with sulfite allergies. The only exception is when epinephrine is being used in an emergency.
• Know that the use of epinephrine with digoxin (Lanoxin) or such general anesthetics as cyclopropane or a halogenated hydrocarbon like halothane (Fluothane) may increase the risk of ventricular arrhythmias.
• Avoid giving epinephrine with other drugs that exert a similar effect. Doing so can cause severe adverse cardiovascular effects.

How to Give It

For life-threatening arrhythmias, administer 1 to 2 g magnesium sulfate over 5 to 60 minutes. Follow with an infusion of 0.5 to 1 g/hr. The dosage and duration of therapy depend on the patient’s response and serum magnesium levels. The optimum dosage is still under study.

What Can Happen

Adverse cardiovascular effects of magnesium sulfate include diaphoresis, flushing, depressed cardiac function, bradycardia, hypotension, and circulatory collapse. (See Noncardiac adverse effects of magnesium sulfate)

How You Intervene

Keep the following points in mind when caring for a patient receiving magnesium sulfate:

• Monitor the patient’s heart rate, blood pressure, ventilatory rate, ECG, urine output, deep tendon reflexes, and mental status.
• Remember that magnesium sulfate should be avoided in patients with renal disease. Use it cautiously in patients with renal insufficiency and in those taking digoxin.
• Monitor closely for signs and symptoms of hypermagnesemia, such as hypotension, AV block, CNS depression, depressed or absent deep tendon reflexes, muscle weakness or paralysis, and respiratory arrest.
• Have IV calcium available to counteract the effects of hypermagnesemia.
• Have intubation equipment and a mechanical ventilator available.
• Magnesium sulfate is contraindicated in heart block.