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aMILoride

Class: Potassium-sparing Diuretics
- Diuretics, Potassium-sparing
VA Class: CV704
CAS Number: 17440-83-4


aMILoride Hydrochloride is also contained as an ingredient in the following combinations:
aMILoride Hydrochloride and Hydrochlorothiazide

Medically reviewed by Drugs.com on Mar 15, 2021. Written by ASHP.

Warning

  • Hyperkalemia (i.e., serum potassium concentrations >5.5 mEq/L) may occur with all potassium-sparing agents, including amiloride.

  • Hyperkalemia occurs in about 10% of patients receiving amiloride without a kaliuretic diuretic and more frequently in patients with renal impairment or diabetes (even without evidence of renal impairment) and in geriatric patients. In patients without the mentioned complications, incidence of hyperkalemia is reduced to 1–2% by concomitant use of amiloride with a thiazide diuretic.

  • Uncorrected hyperkalemia may be fatal; monitor serum potassium concentrations carefully, especially during initial therapy or dosage adjustments, and in patients with concurrent illness that may affect renal function.

Introduction

Potassium-sparing diuretic; pyrazinecarbonyl guanidine derivative.

Uses for aMILoride

Amiloride should rarely be used alone, because such use may result in increased risk of hyperkalemia. Use alone only when persistent hypokalemia has been documented.

Hypokalemia Induced by Kaliuretic Diuretics

Treatment or prevention of hypokalemia induced by thiazide or other kaliuretic diuretics in patients with heart failure or hypertension.

May be particularly useful for preventing diuretic-induced hypokalemia in patients in whom the clinical consequences of hypokalemia represent an important risk, such as patients receiving cardiac glycosides or those with cardiac arrhythmias.

Also useful in patients with hypokalemia who do not respond to potassium supplements or those who cannot tolerate potassium supplements.

Potassium-sparing effect of amiloride generally persists during prolonged therapy with the drug, but may diminish with time in some patients.

Potassium-sparing effect of amiloride is additive with that of spironolactone. May be effective in some patients unresponsive to spironolactone; unlike spironolactone, diuretic effect of amiloride is independent of aldosterone concentrations.

Edema

Management of edema associated with heart failure, cirrhosis of the liver, or secondary hyperaldosteronism.

Generally, use in combination with other more effective, rapidly acting diuretics, such as thiazides, chlorthalidone, or loop diuretics (e.g., furosemide), to decrease potassium excretion caused by kaliuretic diuretics.

Used in fixed combination with hydrochlorothiazide for treatment of edema in patients who require a thiazide diuretic and in whom the development of hypokalemia cannot be risked.

Heart Failure

Management of edema associated with heart failure, generally used in conjunction with other more effective, rapidly acting diuretics (e.g., thiazides, chlorthalidone, loop diuretics).

Most experts state that loop diuretics (e.g., bumetanide, ethacrynic acid, furosemide, torsemide) are the diuretics of choice for most patients with heart failure.

Most experts state that all patients with symptomatic heart failure who have evidence for, or a history of, fluid retention generally should receive diuretic therapy in conjunction with moderate sodium restriction, an agent to inhibit the renin-angiotensin-aldosterone (RAA) system (e.g., ACE inhibitor, angiotensin II receptor antagonist, angiotensin receptor-neprilysin inhibitor [ARNI]), a β-adrenergic blocking agent (β-blocker), and in selected patients, an aldosterone antagonist.

Hypertension

Management of hypertension alone or in combination with other classes of antihypertensive agents; however, other agents (i.e., ACE inhibitors, angiotensin II receptor antagonists, calcium-channel blockers, thiazide diuretics) are preferred for initial management according to current evidence-based practice guidelines for the management of hypertension in adults.

Amiloride alone has mild hypotensive activity.

Used concomitantly with a thiazide diuretic mainly to prevent or treat diuretic-induced hypokalemia. (See Hypokalemia Induced by Kaliuretic Diuretics under Uses.) The manufacturers state that amiloride produces little additive hypotensive activity when used concurrently with a thiazide diuretic.

Some experts state that amiloride may be useful as a component of combination therapy in the management of resistant hypertension.

Used in fixed combination with hydrochlorothiazide for treatment of hypertension in patients who require a thiazide diuretic and in whom the development of hypokalemia cannot be risked and in patients who develop hypokalemia during hydrochlorothiazide monotherapy.

Use the amiloride/hydrochlorothiazide fixed combination alone or as an adjunct to other antihypertensive agents (e.g., methyldopa, β-blocker).

Individualize choice of therapy; consider patient characteristics (e.g., age, ethnicity/race, comorbidities, cardiovascular risk) as well as drug-related factors (e.g., ease of administration, availability, adverse effects, cost).

A 2017 ACC/AHA multidisciplinary hypertension guideline classifies BP in adults into 4 categories: normal, elevated, stage 1 hypertension, and stage 2 hypertension. (See Table 1.)

Source: Whelton PK, Carey RM, Aronow WS et al. 2017 ACC/AHA/AAPA/ABC/ACPM/AGS/APhA/ASH/ASPC/NMA/PCNA guideline for the prevention, detection, evaluation, and management of high blood pressure in adults: a report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines. Hypertension. 2018;71:e13-115.

Individuals with SBP and DBP in 2 different categories (e.g., elevated SBP and normal DBP) should be designated as being in the higher BP category (i.e., elevated BP).

Table 1. ACC/AHA BP Classification in Adults1200

Category

SBP (mm Hg)

DBP (mm Hg)

Normal

<120

and

<80

Elevated

120–129

and

<80

Hypertension, Stage 1

130–139

or

80–89

Hypertension, Stage 2

≥140

or

≥90

The goal of hypertension management and prevention is to achieve and maintain optimal control of BP. However, the BP thresholds used to define hypertension, the optimum BP threshold at which to initiate antihypertensive drug therapy, and the ideal target BP values remain controversial.

The 2017 ACC/AHA hypertension guideline generally recommends a target BP goal (i.e., BP to achieve with drug therapy and/or nonpharmacologic intervention) of <130/80 mm Hg in all adults regardless of comorbidities or level of atherosclerotic cardiovascular disease (ASCVD) risk. In addition, an SBP goal of <130 mm Hg generally is recommended for noninstitutionalized ambulatory patients ≥65 years of age with an average SBP of ≥130 mm Hg. These BP goals are based upon clinical studies demonstrating continuing reduction of cardiovascular risk at progressively lower levels of SBP.

Other hypertension guidelines generally have based target BP goals on age and comorbidities. Guidelines such as those issued by the JNC 8 expert panel generally have targeted a BP goal of <140/90 mm Hg regardless of cardiovascular risk, and have used higher BP thresholds and target BPs in elderly patients compared with those recommended by the 2017 ACC/AHA hypertension guideline.

Some clinicians continue to support previous target BPs recommended by JNC 8 due to concerns about the lack of generalizability of data from some clinical trials (e.g., SPRINT study) used to support the 2017 ACC/AHA hypertension guideline and potential harms (e.g., adverse drug effects, costs of therapy) versus benefits of BP lowering in patients at lower risk of cardiovascular disease.

Consider potential benefits of hypertension management and drug cost, adverse effects, and risks associated with the use of multiple antihypertensive drugs when deciding a patient's BP treatment goal.

For decisions regarding when to initiate drug therapy (BP threshold), the 2017 ACC/AHA hypertension guideline incorporates underlying cardiovascular risk factors. ASCVD risk assessment is recommended by ACC/AHA for all adults with hypertension.

ACC/AHA currently recommend initiation of antihypertensive drug therapy in addition to lifestyle/behavioral modifications at an SBP ≥140 mm Hg or DBP ≥90 mm Hg in adults who have no history of cardiovascular disease (i.e., primary prevention) and a low ASCVD risk (10-year risk <10%).

For secondary prevention in adults with known cardiovascular disease or for primary prevention in those at higher risk for ASCVD (10-year risk ≥10%), ACC/AHA recommend initiation of antihypertensive drug therapy at an average SBP ≥130 mm Hg or an average DBP ≥80 mm Hg.

Adults with hypertension and diabetes mellitus, CKD, or age ≥65 years are assumed to be at high risk for cardiovascular disease; ACC/AHA state that such patients should have antihypertensive drug therapy initiated at a BP ≥130/80 mm Hg. Individualize drug therapy in patients with hypertension and underlying cardiovascular or other risk factors.

In stage 1 hypertension, experts state that it is reasonable to initiate drug therapy using the stepped-care approach in which one drug is initiated and titrated and other drugs are added sequentially to achieve the target BP. Initiation of antihypertensive therapy with 2 first-line agents from different pharmacologic classes recommended in adults with stage 2 hypertension and average BP >20/10 mm Hg above BP goal.

Hyperaldosteronism

Has been used to control hypertension and correct electrolyte abnormalities associated with primary hyperaldosteronism.

Also has been used for the management of secondary hyperaldosteronism (Bartter’s syndrome) to correct hypokalemia.

Diuretic-induced Metabolic Alkalosis

Has been used to correct the metabolic alkalosis produced by thiazides and other kaliuretic diuretics.

Calcium Nephrolithiasis

Has been used in combination with hydrochlorothiazide in patients with recurrent calcium nephrolithiasis.

Lithium-induced Polyuria

Has been used for the management of lithium-induced polyuria (secondary to lithium-induced nephrogenic diabetes insipidus). (See Specific Drugs, Foods, and Laboratory Tests under Interactions.)

aMILoride Dosage and Administration

General

Monitoring and BP Treatment Goals

  • Monitor BP regularly (i.e., monthly) during therapy and adjust dosage of the antihypertensive drug(s) until BP controlled.

  • If unacceptable adverse effects occur, discontinue drug and initiate another antihypertensive agent from a different pharmacologic class.

  • If adequate BP response not achieved with a single antihypertensive, either increase dosage of single drug or add a second drug with demonstrated benefit and preferably a complementary mechanism of action (e.g., ACE inhibitor, angiotensin II receptor antagonist, calcium-channel blocker). Many patients will require at least 2 drugs from different pharmacologic classes to achieve BP goal; if goal BP still not achieved with 2 antihypertensive agents, add a third drug.

  • Assess patient's renal function and electrolytes 2–4 weeks after initiation of diuretic therapy.

  • Monitor serum potassium and other electrolyte concentrations following changes in dosage or with concurrent illness or drug therapy. (See Hyperkalemia under Cautions and also see Interactions.)

  • According to some clinicians, amiloride hydrochloride dosage should be reduced to the lowest effective level in any disease state, following initial diuresis with a kaliuretic diuretic.

  • Do not use fixed-combination amiloride/hydrochlorothiazide tablets for initial therapy of edema or hypertension, except in patients in whom the clinical consequences of hypokalemia represent an important risk (e.g., patients receiving cardiac glycosides, patients with cardiac arrhythmias). Adjust dosage by administering each drug separately. If the optimum maintenance dosage corresponds to the ratio in the commercial combination preparation, the fixed combination may be used.

Administration

Oral Administration

Administer orally, preferably with food to decrease GI adverse effects.

Fixed-combination amiloride/hydrochlorothiazide tablets: Administer orally with food.

Dosage

Available as amiloride hydrochloride; dosage expressed in terms of the salt.

Individualize dosage according to patient’s requirements and response.

For the management of fluid retention (e.g., edema) associated with heart failure, experts state that diuretics should be administered at a dosage sufficient to achieve optimal volume status and relieve congestion without inducing an excessively rapid reduction in intravascular volume, which could result in hypotension, renal dysfunction, or both.

Pediatric Patients

Usual Dosage†
Oral

A dosage of 0.625 mg/kg daily has been used in children weighing 6–20 kg.

Hypertension†
Oral

Some experts have recommended an initial dosage of 0.4–0.625 mg/kg daily given once daily. Increase dosage as necessary up to a maximum of 20 mg once daily.

Adults

Heart Failure
Combination Therapy
Oral

Usually combined with a kaliuretic diuretic (e.g., hydrochlorothiazide) to prevent or treat hypokalemia induced by the diuretic.

Initially, 5 mg daily; increase dosage as necessary to 10 mg daily.

If hypokalemia persists after an adequate trial of 10 mg daily may increase dosage to 15 and then 20 mg daily.

Dosages exceeding 10 mg daily usually are not necessary, and there is little controlled clinical experience with dosages exceeding 10 mg daily.

ACCF and AHA recommend a maximum total daily dosage of 20 mg, however, according to some clinicians, the maximum effective daily dosage may be as high as 40 mg.

Reevaluate need for amiloride therapy following initial diuresis with a kaliuretic diuretic, since potassium loss may decrease. Subsequent dosage adjustment may be necessary, or amiloride may be used intermittently.

Hypertension
Monotherapy
Oral

Use amiloride alone only when persistent hypokalemia is documented.

Initially, 5 mg daily; increase dosage as necessary to 10 mg daily.

Titrate dosage carefully and monitor serum electrolytes closely because of increased risk of hyperkalemia with monotherapy.

If hypokalemia persists after an adequate trial of 10 mg daily, may increase dosage to 15 and then 20 mg daily.

Some experts state that the usual dosage range is 5–10 mg daily (given in 1 dose or 2 divided doses). Dosages exceeding 10 mg daily usually are not necessary, and there is little controlled clinical experience with dosages exceeding 10 mg daily.

However, some clinicians state maximum effective dosage may be as high as 40 mg daily.

Combination Therapy
Oral

Usually combined with a kaliuretic diuretic (e.g., hydrochlorothiazide) to prevent or treat potassium loss induced by the diuretic.

Initially, 5 mg daily; increase dosage as necessary to 10 mg daily.

If hypokalemia persists after an adequate trial of 10 mg daily, may increase dosage to 15 and then 20 mg daily with careful monitoring of serum electrolytes.

Dosages exceeding 10 mg daily usually are not necessary, and there is little controlled clinical experience with dosages exceeding 10 mg daily.

According to some clinicians, maximum effective daily dosage may be as high as 40 mg daily.

The fixed-combination preparation with hydrochlorothiazide should be used for initial antihypertensive therapy only in selected patients in whom the potential development of thiazide-induced hypokalemia cannot be risked. (See General under Dosage and Administration.)

Lithium-induced Polyuria
Monotherapy
Oral

Dosages of 5–10 mg twice daily have been effective in the management of lithium-induced polyuria in adults. (See Specific Drugs, Foods, and Laboratory Tests under Interactions.)

Prescribing Limits

Pediatric Patients

Hypertension†
Oral

Maximum 20 mg once daily.

Adults

Heart Failure
Oral

Maximum 40 mg daily.

Maximum 20 mg daily recommended by some experts.

Hypertension
Oral

Maximum 40 mg daily.

Special Populations

Geriatric Patients

Select dosage with caution because of age-related decreases in hepatic, renal, and/or cardiac function and concomitant disease and drug therapy.

Cautions for aMILoride

Contraindications

  • Anuria, acute or chronic renal insufficiency, diabetic nephropathy.

  • Preexisting hyperkalemia (≥5.5 mEq/L).

  • Concurrent potassium supplementation (e.g., potassium salts, potassium-containing salt substitutes) except in severe and/or refractory hypokalemia when may be used with careful monitoring of serum potassium concentrations. (See Specific Drugs, Foods, and Laboratory Tests under Interactions.)

  • Concurrent therapy with potassium-sparing agents (e.g., spironolactone, triamterene). (See Specific Drugs, Foods, and Laboratory Tests under Interactions.)

  • Known hypersensitivity to amiloride or any ingredient in the formulation.

Warnings/Precautions

Warnings

Hyperkalemia

Hyperkalemia (i.e., serum potassium concentrations >5.5 mEq/L) may occur with all potassium-sparing agents, including amiloride. (See Boxed Warning.)

If hyperkalemia occurs, discontinue amiloride immediately.

Serum potassium concentrations >6.5 mEq/L require specific measures such as administration of sodium bicarbonate and/or oral or parenteral glucose with a rapid-acting insulin preparation to correct the hyperkalemia. If necessary, a cation exchange resin (e.g., sodium polystyrene sulfonate) may be administered orally or as a retention enema.

Patients with persistent hyperkalemia may require dialysis.

Evaluate BUN and serum potassium and creatinine concentrations regularly, especially in patients with suspected or confirmed renal insufficiency. Monitor serum potassium concentrations closely in geriatric and diabetic patients. Avoid use in diabetic patients, if possible, because of the risk of hyperkalemia.

Warning signs of hyperkalemia include paresthesias, muscular weakness, fatigue, flaccid paralysis of the extremities, bradycardia, and shock.

Hyperkalemia has been associated with cardiac irregularities. ECG changes associated with hyperkalemia are mainly characterized by tall, peaked T waves or elevations since previous tracings. Lowering of the R wave and increased depth of the S wave, widening or absence of the P wave, progressive widening of the QRS complex, prolongation of the PR interval, and/or depression of the ST segment also may occur. ECG changes do not usually occur in patients who develop mild hyperkalemia during amiloride therapy.

Metabolic or Respiratory Acidosis

Use with caution in patients with cardiopulmonary disease or uncontrolled diabetes mellitus because of risk of developing metabolic or respiratory acidosis, which may result in rapid increases in serum potassium concentration. Monitor acid-base balance frequently in such patients.

General Precautions

Use of Fixed Combinations

When amiloride is used in fixed combination with hydrochlorothiazide, consider the cautions, precautions, and contraindications associated with hydrochlorothiazide.

Electrolyte Imbalance

Electrolyte disturbance (e.g., hyponatremia, hypochloremia) may occur when amiloride is used with other diuretics.

Hypochloremia usually does not require specific treatment except in patients with severe hepatic or renal disease.

Use appropriate replacement therapy in those who are sodium depleted. Use water restriction rather than replacement of sodium chloride in edematous patients with dilutional hyponatremia during hot weather, except in rare instances when hyponatremia is life-threatening.

Despite amiloride’s potassium-sparing effect, hypokalemia may develop in patients receiving amiloride with other diuretics.

Although amiloride usually prevents hypokalemia associated with thiazide diuretics, some clinicians (using the fixed-dose combination of amiloride and hydrochlorothiazide) have questioned whether 5 mg of amiloride hydrochloride is sufficient to counteract the potassium loss produced by 50 mg of hydrochlorothiazide.

Renal Effects

Increased BUN concentration may occur, most frequently during forced diuresis in debilitated patients with hepatic cirrhosis with ascites and metabolic alkalosis or in those with resistant edema. In such patients, monitor BUN concentration carefully when amiloride is used with other diuretics.

Specific Populations

Pregnancy

Category B.

Lactation

Distributed into milk in animals. Discontinue nursing or the drug.

Pediatric Use

Safety and efficacy of amiloride alone or in fixed combination with hydrochlorothiazide not established; however, some experts have suggested an amiloride dosage for hypertension based on limited clinical experience. (See Pediatric Patients under Dosage and Administration.)

Geriatric Use

Insufficient experience in patients ≥65 years of age to determine whether geriatric patients respond differently than younger adults.

Substantially eliminated by kidneys; assess renal function periodically since geriatric patients are more likely to have decreased renal function.

Hepatic Impairment

Use with caution in patients with severe, preexisting hepatic insufficiency because of risk of hepatic encephalopathy; monitor such patients carefully for signs and symptoms of hepatic encephalopathy.

Monitor serum electrolyte and BUN concentrations closely in patients with hepatic cirrhosis with ascites and metabolic alkalosis receiving amiloride in combination with other diuretics.

Renal Impairment

Use with caution in patients with impaired renal function (BUN concentration >30 mg/dL or Scr >1.5 mg/dL), because of risk of hyperkalemia.

Monitor serum electrolyte, creatinine, and BUN periodically; some clinicians recommend weekly determinations during initiation of therapy.

Common Adverse Effects

Hyperkalemia, nausea, vomiting, diarrhea, abdominal pain, flatulence, anorexia, mild skin rash, headache.

Interactions for aMILoride

Specific Drugs, Foods, and Laboratory Tests

Drug, Food, or Test

Interaction

Comments

ACE inhibitors

Increased risk of hyperkalemia

Use caution with concomitant ACE inhibitor therapy; monitor serum potassium concentrations frequently

Risk of hyperkalemia may be increased in patients with renal impairment

Discontinue or reduce dosage of amiloride as necessary in patients receiving an ACE inhibitor

Angiotensin II receptor antagonists

Increased risk of hyperkalemia

Use caution with concomitant angiotensin II receptor antagonist therapy; monitor serum potassium concentrations frequently

Antihypertensive agents

Possible additive antihypertensive effects

Adjust amiloride dosage carefully when drug is added to an antihypertensive regimen

Cyclosporine

Increased risk of hyperkalemia

Use caution with concomitant cyclosporine therapy; monitor serum potassium concentrations frequently

Digoxin

Possible alteration of response to digoxin therapy

Observe patient carefully for altered response to digoxin therapy

Diuretics, potassium-sparing (e.g., spironolactone, triamterene)

Increased risk of hyperkalemia

Concomitant use contraindicated

Lithium

Reduced renal clearance of lithium and increased risk of lithium toxicity

Concomitant use generally contraindicated; if concomitant therapy is necessary, monitor serum electrolyte and lithium concentrations, urine output, and serum and urine osmolality and adjust lithium dosage as necessary

NSAIAs (e.g., indomethacin)

Concomitant use with indomethacin may affect potassium kinetics and renal function

Possible decrease in the diuretic, natriuretic, and hypotensive effects of amiloride with concomitant use of NSAIAs

Consider potential effects on potassium kinetics and renal function

Observe patient closely to determine whether the desired effect of amiloride is attained

Potassium supplements, potassium-containing medications (e.g., parenteral penicillin G potassium), and/or foods containing potassium (e.g., salt substitutes, low-salt milk)

Increased risk of hyperkalemia, especially in patients with renal insufficiency

Concomitant use generally contraindicated

Tacrolimus

Increased risk of hyperkalemia

Use with caution; monitor serum potassium concentrations frequently

Tests, glucose tolerance

Possible severe hyperkalemia following IV glucose tolerance testing in patients with uncontrolled diabetic mellitus receiving short-term administration of amiloride

Discontinue amiloride in patients with diabetes mellitus at least 3 days prior to glucose tolerance testing

aMILoride Pharmacokinetics

Absorption

Bioavailability

About 50% of an oral dose is absorbed.

Onset

Diuretic activity usually occurs within 2 hours.

Peak urinary electrolyte excretion within 6–10 hours.

Duration

Effect on urinary electrolyte excretion persists for about 24 hours.

Food

Food decreases the extent of GI absorption to about 30%, but does not affect the rate of absorption.

Distribution

Extent

Crosses the placenta in animals; not known whether crosses placenta in humans.

Distributed into milk in animals; not known whether distributed into human milk.

Elimination

Metabolism

Not metabolized in the liver.

Elimination Route

Excreted in urine (50%) as unchanged drug and in feces (40%), possibly as unabsorbed drug.

Half-life

6–9 hours or longer.

Special Populations

Renal clearance may be reduced in patients with renal impairment.

Stability

Storage

Oral

Tablets

<40°C (preferably 15–30°C); protect from moisture, freezing, and excessive heat.

Fixed Combination Tablets with Hydrochlorothiazide

15–30°C; protect from light, moisture, and freezing.

Actions

  • Exhibits potassium-sparing effect when used with kaliuretic diuretics.

  • Exerts potassium-sparing effect by decreasing sodium reabsorption in the distal tubule and reducing both potassium and hydrogen secretion and subsequent excretion.

  • Exhibits weak natriuretic, diuretic, and hypotensive effects.

  • Does not competitively inhibit aldosterone; activity is independent of aldosterone concentrations.

  • Does not inhibit carbonic anhydrase and has no effect on free water clearance or concentrating mechanisms.

  • Increases urinary excretion of sodium, calcium, and bicarbonate with little, if any, increase in chloride excretion.

  • Concomitant administration with a more potent natriuretic diuretic results in approximately additive effects of the drugs on urinary sodium excretion and an antagonistic effect on potassium excretion.

  • May increase urinary aldosterone and plasma renin concentrations, probably as a compensatory feedback mechanism caused by potassium retention and natriuresis.

  • Unlike thiazide diuretics, does not consistently inhibit the excretion of uric acid; has variable effects on serum uric acid concentration.

  • Does not appear to be diabetogenic or to alter carbohydrate metabolism in humans.

Advice to Patients

  • Importance of taking drug with food to help avoid stomach upset.

  • Importance of avoiding ingestion of potassium supplements, salt substitutes, or excessive amounts of potassium-rich foods.

  • Importance of informing clinicians of existing or contemplated concomitant therapy, including prescription and OTC drugs, as well as any concomitant illnesses.

  • Importance of women informing clinicians if they are or plan to become pregnant or plan to breast-feed.

  • Importance of informing patients of other important precautionary information. (See Cautions.)

Preparations

Excipients in commercially available drug preparations may have clinically important effects in some individuals; consult specific product labeling for details.

Please refer to the ASHP Drug Shortages Resource Center for information on shortages of one or more of these preparations.

* available from one or more manufacturer, distributor, and/or repackager by generic (nonproprietary) name

aMILoride Hydrochloride

Routes

Dosage Forms

Strengths

Brand Names

Manufacturer

Oral

Tablets

5 mg*

Amiloride Hydrochloride Tablets

* available from one or more manufacturer, distributor, and/or repackager by generic (nonproprietary) name

aMILoride Hydrochloride and Hydrochlorothiazide

Routes

Dosage Forms

Strengths

Brand Names

Manufacturer

Oral

Tablets

5 mg Amiloride Hydrochloride and Hydrochlorothiazide 50 mg*

Amiloride Hydrochloride and Hydrochlorothiazide Tablets

AHFS DI Essentials™. © Copyright 2021, Selected Revisions March 25, 2019. American Society of Health-System Pharmacists, Inc., 4500 East-West Highway, Suite 900, Bethesda, Maryland 20814.

† Use is not currently included in the labeling approved by the US Food and Drug Administration.

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