Class: Replacement Preparations
CAS Number: 127-08-2
Brands: Effer-K, Kaon-Cl, Kay Ciel, K-Lor, Klor-Con, Klor-Con/EF, Klotrix, K-Tab, Micro-K
Introduction
A source of potassium, an essential nutrient cation.a
Uses for Potassium Supplements
Hypokalemia
Treatment or prevention of hypokalemia (potassium deficiency) in patients in whom dietary measures are inadequate.a
Conditions that may indicate or result in potassium deficiency include vomiting, diarrhea, drainage of GI fluids, hyperadrenalism, malnutrition, debilitation, prolonged negative nitrogen balance, prolonged parenteral alimentation without addition of potassium, dialysis, metabolic alkalosis, metabolic or diabetic acidosis, GI tract abnormalities that result in poor absorption, certain renal diseases, and familial periodic paralysis characterized by hypokalemia.a
Potassium should be included in long-term electrolyte replacement regimens and has been recommended for routine prophylactic administration following surgery after adequate urine flow has been established.a
Potassium replacement may be indicated in patients receiving certain drugs that may sometimes cause potassium depletion (e.g., thiazide diuretics, carbonic anhydrase inhibitors, loop diuretics, some corticosteroids, corticotropin, aminosalicylic acid, amphotericin B).a Although ingestion of potassium-rich foods and/or use of potassium-containing salt substitutes may prevent potassium depletion in patients receiving potassium-depleting drugs, judicious prophylactic administration of potassium may be advisable in selected patients during prolonged diuretic or corticosteroid therapy, especially if they are digitalized.a
Potassium chloride usually is the salt of choice in the treatment of potassium depletion, since the chloride ion is required to correct hypochloremia which frequently accompanies potassium deficiency and since the citrate, bicarbonate, gluconate, or another alkalinizing salt of potassium may cause hypochloremia, particularly when used in conjunction with chloride-restricted diets.a
Alkalinizing potassium salts (acetate, bicarbonate, citrate, gluconate) should be used for treatment of hypokalemia in patients with metabolic acidosis (e.g., renal tubular acidosis).a c g
Potassium also is available as the potassium phosphate salt; however, potassium phosphate usually is used to replace phosphate losses or to correct coexisting hypokalemia and hypophosphatemia.q r s t
Hypertension
Inadequate dietary intake of potassium plays an important role in the development of hypertension,101 102 103 and high dietary intake of potassium (including use of potassium supplements) may protect against the development of high blood pressure and improve blood pressure control in patients with hypertension.101 103
Most experts recommend that an adequate intake of potassium101 103 (about 50–90 mEq daily)101 be maintained in hypertensive patients as part of lifestyle modifications,101 103 particularly in those unable to adequately reduce their sodium intake.a 103
Adequate intake of potassium should be considered as a means of preventing the development of hypertension.101 103 Food sources high in potassium such as fruits and vegetables101 104 are preferred.101 Alternatively, potassium supplements or salt-substitutes or potassium-sparing diuretics can be used, particularly in patients receiving kaliuretic diuretics.101
AMI
Potassium supplementation, combined with magnesium supplementation if necessary, has been used to reduce risk of ventricular arrhythmias in patients with AMI.105
Clinical experience as well as observational data from coronary care unit populations indicate that hypokalemia is a risk factor for development of ventricular fibrillation.105 110 111 Although benefits of potassium supplementation as a strategy in preventing ventricular fibrillation following AMI have not been confirmed, maintaining serum potassium and magnesium concentrations at levels >4 and >2 mEq/L, respectively, is considered sound clinical practice.105
IV potassium chloride has been used early in the course of suspected AMI† in conjunction with IV insulin injection (regular insulin) and dextrose (d-glucose) (referred to as glucose-insulin-potassium or GIK therapy) for metabolic modulation and potential beneficial effects on morbidity and mortality.105 106 107 108 109
Initial experience (from the pre-thrombolytic reperfusion era) with early post-MI GIK therapy indicate substantial potential reductions in mortality associated with AMI.107 108 109 Pooled analysis of early studies indicate an overall mortality reduction benefit of 28–48%, which depended on the dosage and timing of GIK therapy relative to symptom onset.107 108 109
GIK therapy appears to be a feasible strategy in the early hours after an AMI.105 106 107 109
Arrhythmias
Potassium salts may be used cautiously to abolish arrhythmias of cardiac glycoside toxicity precipitated by a loss of potassium.a
Elevation of plasma potassium concentrations by 0.5–1.5 mEq/L or to the ULN may be useful in the management of tachyarrhythmias following cardiac surgery,a but this strategy should not be used in patients with atrioventricular block since potassium may further impair nodal conduction.a
Thallium Toxicity
IV potassium supplements, usually potassium chloride,34 35 h i j have been used in the management of thallium poisoning† to enhance diuresis and mobilize thallium from tissues;a h such treatment is limited by the amount of thallium that can be released into the blood without worsening cerebral symptoms.a
Potassium Supplements Dosage and Administration
Administration
Administer orally or by slow IV infusion.a c d Potassium-containing injections (usually potassium chloride),k m n have been administered by hypodermoclysis† (into subcutaneous tissues).25 a k l m n o
Potassium acetate, bicarbonate, chloride, citrate, and gluconate can be administered orally.a Potassium acetate and chloride can be administered IV.a
Whenever possible, potassium supplements should be given orally since the relatively slow absorption from the GI tract prevents sudden, large increases in plasma potassium concentrations.a Replace IV potassium therapy with oral supplements and/or ingestion of potassium-rich foods as soon as possible.a
Oral Administration
Oral potassium supplements should preferably be administered with or after meals with a full glass of water or fruit juice to minimize the possibility of GI irritation and a saline cathartic effect.a
Usually administered orally in 1–4 doses daily.a c Daily dosage >20 mEq should be divided into several doses and should not be given as a single dose.c g
Powders or tablets for oral solution should be dissolved and/or diluted and administered according to the manufacturers’ directions.a g
Extended-release potassium chloride preparations should be reserved for use in patients who cannot tolerate or refuse to take liquid or effervescent potassium preparations or for those in whom there is a problem of compliance with these latter dosage forms.c
IV Infusion
Close monitoring of ECG and plasma potassium concentrations is essential during IV administration of potassium, especially when the rate of administration is >20 mEq/hour.a (See Hyperkalemia under Cautions.)
Potassium IV solutions should generally be administered only in patients with adequate urine flow (e.g., administer to postoperative patients only after adequate urine flow established).a
In dehydrated patients, 1 liter of potassium-free fluid should be administered prior to initiating potassium therapy.a
Local vascular intolerance may limit the ability to administer concentrated solutions; administer via large, high-flow vein (e.g., femoral vein) or administer less concentrated solutions in divided doses via 2 veins simultaneously.a Avoid administration of concentrated potassium solutions via subclavian, jugular, or right atrial catheter; local potassium concentrations achieved in the heart may be high and potentially cardiotoxic.a
Potassium chloride injection in plastic containers should not be used in series connections with other plastic containers, since such use could result in air embolism from residual air being drawn from the primary container before administration of fluid from the secondary container is complete.a
Hyperkalemia has been reported when concentrated potassium chloride solutions were added to IV infusions from a hanging flexible plastic container, apparently as a result of pooling of the concentrated potassium solution at the base of the container and infusion of undiluted solution.a Squeezing the container does not facilitate mixing but tends to pump the concentrated solution into the infusion chamber.a Such solutions must be carefully mixed by inverting the plastic container during the addition of potassium solutions with subsequent agitation and/or kneading to prevent pooling.a
Dilution
For solution and drug compatibility information, see Compatibility under Stability.
Potassium acetate and potassium chloride are available as concentrates that must be diluted prior to IV administration.a
Generally, potassium concentrations in IV fluids should not exceed 40 mEq/L.a However, higher potassium concentrations (e.g., 60–80 mEq/L) occasionally may be needed initially for management of severe hypokalemia and associated cardiac arrhythmias, diabetic ketoacidosis or diuretic phase of acute renal failure.a
Rate of Administration
Must be administered by slow IV infusion.a Generally, rate of administration should not exceed 20 mEq/hour.a
More rapid administration occasionally may be necessary for management of severe hypokalemia and associated cardiac arrhythmias or diabetic ketoacidosis or diuretic phase of acute renal failure.a
Hypodermoclysis
If administered by hypodermoclysis†, potassium concentrations should not exceed 10 mEq/L to avoid local pain.a
Dosage
Dosage of potassium supplements usually expressed as mEq of potassium.a
Normal adult daily potassium requirement and usual dietary intake of potassium is 40–80 mEq; infants may require 2–3 mEq/kg or 40 mEq/m2 daily.a
Dosage must be carefully individualized according to the patient’s requirements and response.a c
To avoid serious hyperkalemia, replacement of potassium deficits must be undertaken gradually, usually over a 3- to 7-day period depending on the severity of the deficit.a
Potassium replacement requirements can be estimated only by clinical condition and response, ECG monitoring, and/or plasma potassium determinations.a
40 mEq of potassium is provided by approximately: |
|---|
3.9 g of potassium acetate |
4.0 g of potassium bicarbonate |
3.0 g of potassium chloride |
4.3 g of potassium citrate |
9.4 g of potassium gluconate |
Pediatric Patients
Hypokalemia†
Prevention or Treatment†
Oral
If used in pediatric patients†, do not exceed 3 mEq/kg daily in young children.a
Adults
Hypokalemia
Prevention
Oral
Average dosage approximately 20 mEq daily.a c Usually should not exceed 200 mEq daily.a p
Treatment
Oral
Usual dosage is 40–100 mEq or more daily.a c Usually should not exceed 200 mEq daily.a p
AMI†
Glucose-Insulin-Potassium (GIK) Therapy†
IV
GIK therapy in AMI patients involves use of IV potassium chloride in conjunction with IV insulin injection (regular insulin) and IV dextrose (d-glucose).105 106 Goal is to maintain serum potassium concentrations >4 mEq/L and serum magnesium concentrations >2 mEq/L.105 a
Low-dose regimen: IV solution containing potassium chloride 40 mEq/L, 10% dextrose, and 20 units insulin [regular]/L given at a rate of 1 mL/kg per hour per 24 hours.105 106
High-dose regimen: IV solution containing potassium chloride 80 mEq/L, 25% dextrose, and 50 units insulin [regular]/L given at a rate of 1.5 mL/kg per hour for 24 hours.105 106
Usually initiated in AMI patients within approximately 10–11 hours of symptom onset.105 106 Both low-dose and high-dose regimens appear beneficial; some evidence suggests that the high-dose regimen may be more effective.106 107
Prescribing Limits
Pediatric Patients
Hypokalemia†
Prevention or Treatment†
Oral
3 mEq/kg daily for young children.a
Adults
Hypokalemia
Prevention or Treatment
Oral
Usually should not exceed 200 mEq daily.a p
Special Populations
Renal Impairment
Cautious dosage selection and careful monitoring recommended in patients with renal impairment.c
Geriatric Patients
Select dosage with caution, starting at low end of dosage range, because of age-related decreases in hepatic, renal, and/or cardiac function and concomitant disease and drug therapy.c
Cautions for Potassium Supplements
Contraindications
Hyperkalemia, including that complicating chronic renal failure, systemic acidosis (e.g., diabetic acidosis), acute dehydration, extensive tissue breakdown (e.g., in severe burns), adrenal insufficiency, or concomitant use of potassium-sparing diuretics (e.g., amiloride, spironolactone, triamterene).c e g
Severe renal impairment with oliguria, anuria, or azotemia.a e
Use of solid oral dosage preparations in patients with structural, pathologic (e.g., diabetic gastroparesis), and/or pharmacologic (e.g., induced by anticholinergic agents) causes for arrest or delay in GI transit.a
Use of extended-release preparations in patients with esophageal compression caused by an enlarged left atrium.a c
Warnings/Precautions
Warnings
Hyperkalemia
Hyperkalemia and cardiac arrest can occur following use of potassium supplements in patients with impaired mechanisms for excreting potassium.c d Most common and serious adverse effect of potassium therapy.a
Potentially fatal; can develop rapidly and patients may be asymptomatic.c Occurs most frequently with IV potassium (especially if administered too rapidly),a but may occur with oral potassium.c
Use IV solutions containing potassium with extreme caution, if at all, in patients with hyperkalemia, severe renal failure, or other conditions with potassium retention.d
Evaluate renal function before therapy; monitor clinical status with periodic ECGs and/or determinations of plasma potassium concentrations.a
Clinical signs and symptoms of hyperkalemia include paresthesia of the extremities, listlessness, mental confusion, weakness or heaviness of the legs, flaccid paralysis, cold skin, gray pallor, peripheral vascular collapse with fall in blood pressure, cardiac arrhythmias, and heart block.a
Metabolic Acidosis
In patients who have both hypokalemia and metabolic acidosis, an alkalinizing potassium salt (acetate, bicarbonate, citrate, gluconate) should be used for treatment of hypokalemia.a c g
Fluid Overload and Edematous States
Use of IV solutions containing potassium may cause fluid and/or solute overload, leading to decreased electrolyte concentrations, overhydration, congestion, and pulmonary edema.d
Use IV solutions containing potassium with extreme caution, if at all, in patients with CHF, severe renal insufficiency, or other conditions with sodium retention and edema.d
GI Lesions
Solid oral dosage forms of potassium have resulted in ulcerative and/or stenotic GI lesion; perforation has occurred.a c Possibly more frequent with enteric-coated tablets (no longer commercially available in the US).a
Administer wax matrix and extended-release preparations with caution; discontinue immediately if abdominal pain, distention, severe vomiting, or GI bleeding occurs.a
Reserve use of extended-release potassium chloride preparations for patients who cannot tolerate or refuse to take liquid or effervescent potassium preparations or for those in whom there is a problem of compliance with these latter dosage forms.c
Some experts question the use of any solid potassium preparation, since use of dilute liquid preparations minimizes the risk of GI complications.a
Local Reactions
Pain and phlebitis may occur at IV administration site, especially with potassium solutions containing ≥30 mEq/L.a
General Precautions
Laboratory Monitoring
Monitor fluid balance, electrolyte concentrations, and acid-base balance periodically during therapy.d Regular serum potassium determinations are recommended, especially in patients with renal impairment or diabetic nephropathy.c
Use of Parenteral Solutions
When potassium is administered IV in parenteral solutions, consider the cautions, precautions, and contraindications associated with fluid volume and electrolytes contained in the IV infusion fluid.d
Specific Populations
Pregnancy
Category C.c d
Lactation
Not known whether potassium is distributed into milk.d Use with caution.d
Pediatric Use
Safety and efficacy not established.c d
Geriatric Use
Response in patients ≥65 years of age does not appear to differ from that in younger adults; however, use with caution due to greater frequency of decreased hepatic, renal, and/or cardiac function and of concomitant disease and drug therapy observed in the elderly.c
Monitor renal function.c
Renal Impairment
Parenteral solutions containing potassium may cause sodium and/or potassium retention.d
Use cautiously; monitor plasma potassium concentrations frequently.a
Common Adverse Effects
Hyperkalemia; GI effects (nausea, vomiting, diarrhea, flatulence, abdominal pain or discomfort); infusion site reactions.a c e
Interactions for Potassium Supplements
Specific Drugs
Drug | Interaction | Comments |
|---|---|---|
ACE inhibitors (e.g., captopril, enalapril) | Increased risk of hyperkalemiac | Use concomitantly only if monitored closely; monitor serum potassium frequently c |
Corticosteroids | Use caution when used concomitantly with parenteral solutions containing potassium d | |
Corticotropin (ACTH) | Use caution when used concomitantly with parenteral solutions containing potassium d | |
Diuretics, potassium-sparing (e.g. amiloride, spironolactone, triamterene) | Increased risk of severe hyperkalemiac | Concomitant use contraindicatedc |
Potassium Supplements Pharmacokinetics
Absorption
Bioavailability
Well absorbed following oral administration.a
Following oral administration of extended-release formulations, potassium is released slowly; risk of high, localized concentrations is minimized.a
Plasma Concentrations
Normal plasma potassium concentrations generally range from 3.5–5 mEq/L in healthy adults.a
Plasma concentrations up to 7.7 mEq/L may be normal in neonates.a
Plasma potassium concentrations are not necessarily indicative of cellular potassium concentrations; cellular deficits may occur without concomitant decreases in plasma potassium concentrations.a Hypokalemia may occur without substantial depletion of cellular potassium.a
Extracellular fluid pH changes produce reciprocal effects on plasma potassium concentrations; 0.1 unit increase in plasma pH produces a decrease of 0.6 mEq/L in plasma potassium concentration.a
Distribution
Extent
Enters extracellular fluid and actively transported into cells; intracellular concentration is up to 40 times extracellular concentration.a
Intracellular movement augmented by dextrose, insulin, and oxygen.a
Potassium concentrations in gastric and intestinal secretions are higher than plasma concentrations; diarrheal fluid may contain up to 60 mEq/L.a
Elimination
Elimination Route
Excreted principally in urine; small amounts may be excreted via the skin and intestinal tract.a
Filtered by the glomeruli, reabsorbed in the proximal tubule, and secreted in the distal tubule, the site of sodium-potassium exchange.a
Tubular secretion influenced by chloride ion concentration, hydrogen ion exchange, acid-base equilibrium, and adrenal hormones.a
Healthy adults on potassium-free diets usually excrete 40–50 mEq of potassium daily.a
Special Populations
Potassium excretion decreased in patients with renal impairment.c
Surgery and/or tissue injury result in increased urinary excretion of potassium which may continue for several days.a
Postoperative patients or patients under stress of disease with normal kidneys may excrete up to 80–90 mEq of potassium daily, even though they are not receiving any potassium.a
Stability
Storage
Oral
Capsules and Tablets
Tight, light resistant containers at 15–30°C.c
Powder for Solution
15–30°C.f
Solution
15–30°C.f
Parenteral
Injection for IV Infusion
25°C (may be exposed to 15–30°C).c
Concentrate For IV Infusion
25°C (may be exposed to up to 40°C).e
Compatibility
For information on systemic interactions resulting from concomitant use, see Interactions.
Potassium Acetate
Drug Compatibility
Compatible |
|---|
Metoclopramide HCl |
Compatible |
|---|
Ciprofloxacin |
Potassium Chloride
Parenteral
Solution CompatibilityHID
Compatible |
|---|
Alcohol 5% and dextrose 5% |
Dextran 6% in dextrose 5% |
Dextran 6% in sodium chloride 0.9% |
Dextrose–Ringer’s injection combinations |
Dextrose–Ringer’s injection, lactated, combinations |
Dextrose 5% in Ringer’s injection, lactated |
Dextrose–saline combinations |
Dextrose 5% in sodium chloride 0.9% |
Dextrose 2½, 5, 10, or 20% in water |
Fructose 10% in sodium chloride 0.9% |
Fructose 10% in water |
Invert sugar 10% in Electrolyte #1 or #2 |
Invert sugar 5 and 10% in sodium chloride 0.9% |
Invert sugar 5 and 10% in water |
Ionosol products |
Polysal M with dextrose 5% |
Ringer’s injection |
Ringer’s injection, lactated |
Sodium chloride 0.45, 0.9, or 3% |
Sodium lactate (1/6) M |
Variable |
Fat emulsion 10%, IV |
Drug Compatibility
Compatible |
|---|
Aminophylline |
Amiodarone HCl |
Atracurium besylate |
Bretylium tosylate |
Calcium gluconate |
Cefepime HCl |
Chloramphenicol sodium succinate |
Cimetidine HCl |
Ciprofloxacin |
Clindamycin phosphate |
Cytarabine |
Dimenhydrinate |
Dopamine HCl |
Enalaprilat |
Erythromycin lactobionate |
Fluconazole |
Foscarnet sodium |
Fosphenytoin sodium |
Furosemide |
Heparin sodium |
Hydrocortisone sodium succinate |
Hydromorphone HCl |
Isoproterenol HCl |
Lidocaine HCl |
Magnesium sulfate |
Metaraminol bitartrate |
Methyldopate HCl |
Metoclopramide HCl |
Mitoxantrone HCl |
Nafcillin sodium |
Norepinephrine bitartrate |
Oxacillin sodium |
Penicillin G potassium |
Penicillin G potassium with vitamin B complex with C |
Phenylephrine HCl |
Propafenone HCl |
Ranitidine HCl |
Sodium bicarbonate |
Thiopental sodium |
Vancomycin HCl |
Verapamil HCl |
Vitamin B complex with C |
Vitamin B complex with C with penicillin G potassium |
Incompatible |
Amoxicillin sodium |
Amphotericin B |
Variable |
Amikacin sulfate |
Dobutamine HCl |
Etoposide with cisplatin and mannitol |
Penicillin G sodium |
Compatible |
|---|
Acyclovir sodium |
Allopurinol sodium |
Amifostine |
Aminophylline |
Amiodarone HCl |
Ampicillin sodium |
Atropine sulfate |
Aztreonam |
Bivalirudin |
Calcium gluconate |
Chlordiazepoxide HCl |
Chlorpromazine HCl |
Ciprofloxacin |
Cladribine |
Cyanocobalamin |
Dexamethasone sodium phosphate |
Dexmedetomidine HCl |
Digoxin |
Diltiazem HCl |
Diphenhydramine HCl |
Dobutamine HCl |
Docetaxel |
Dopamine HCl |
Doxorubicin HCl liposome injection |
Droperidol |
Drotregocin alfa (activated) |
Edrophonium chloride |
Enalaprilat |
Epinephrine HCl |
Ertapenem |
Esmolol HCl |
Estrogens, conjugated |
Ethacrynate sodium |
Etoposide phosphate |
Famotidine |
Fenoldopam mesylate |
Fentanyl citrate |
Filgrastim |
Fludarabine phosphate |
Fluorouracil |
Furosemide |
Gallium nitrate |
Gemcitabine HCl |
Granisetron HCl |
Heparin sodium |
Hetastarch in lactated electrolyte injection (Hextend) |
Hydralazine HCl |
Idarubicin HCl |
Inamrinone lactate |
Indomethacin sodium trihydrate |
Isoproterenol HCl |
Kanamycin sulfate |
Labetalol HCl |
Lidocaine HCl |
Linezolid |
Lorazepam |
Magnesium sulfate |
Melphalan HCl |
Meperidine HCl |
Meropenem |
Methoxamine HCl |
Methylergonovine maleate |
Midazolam HCl |
Milrinone lactate |
Morphine sulfate |
Neostigmine methylsulfate |
Nicardipine HCl |
Norepinephrine bitartrate |
Ondansetron HCl |
Oxacillin sodium |
Oxaliplatin |
Oxytocin |
Paclitaxel |
Pantoprazole |
Pemetrexed disodium |
Penicillin G potassium |
Pentazocine lactate |
Phytonadione |
Piperacillin sodium–tazobactam sodium |
Procainamide HCl |
Prochlorperazine edisylate |
Propofol |
Propranolol HCl |
Pyridostigmine bromide |
Quinupristin-dalfopristin |
Remifentanil HCl |
Sargramostim |
Scopolamine HBr |
Sodium bicarbonate |
Sodium nitroprusside |
Succinylcholine chloride |
Tacrolimus |
Teniposide |
Theophylline |
Thiotepa |
Tirofiban HCl |
Trimethobenzamide HCl |
Vinorelbine tartrate |
Warfarin sodium |
Zidovudine |
Incompatible |
Amphotericin B cholesteryl sulfate complex |
Azithromycin |
Diazepam |
Ergotamine tartrate |
Lansoprazole |
Phenytoin sodium |
Variable |
Aldesleukin |
Methylprednisolone sodium succinate |
Promethazine HCl |
ActionsActions
The major cation of intracellular fluid; essential for maintenance of acid-base balance, isotonicity, and electrodynamic cellular function.a
Important activator in many enzymatic reactions; essential for transmission of nerve impulses; contraction of cardiac, smooth, and skeletal muscles; gastric secretion; renal function; tissue synthesis; and carbohydrate metabolism.a
Reduces mean SBP and DBP.103
Mechanism of beneficial effect of metabolic modulation with potassium in combination with dextrose (d-glucose) and insulin (glucose-insulin-potassium or GIK therapy) following an AMI has not been completely determined.a 107 109
Current evidence suggests that several metabolic mechanisms may be involved in the protective effects of GIK on ischemic myocardium.a 107 109
GIK decreases both circulating concentrations of free fatty acids (FFAs) and myocardial uptake of FFAs shown to be toxic to ischemic myocardium.a 107
Stimulates myocardial potassium uptake by insulin via Na+-K+-ATPase and provision of glucose (substrate) for glycolic ATP production.a 107 109
Advice to Patients
Importance of advising patient to take oral supplement with meal and full glass of water.c
Importance of taking only as prescribed; do not increase dosage or duration of therapy unless otherwise instructed by a clinician.c
Importance of informing clinician of tarry stools or other GI symptoms.c
Importance of informing clinician of difficulty swallowing capsules or if capsules seem to become stuck in throat.c
Advise patient to swallow capsules and not crush, chew, or suck capsules.c
Importance of informing clinicians of existing or contemplated concomitant therapy, including prescription and OTC drugs.c
Importance of women informing their clinician if they are or plan to become pregnant or plan to breast-feed.c
Importance of informing patients of other important precautionary information.c (See Cautions.)
Preparations
Excipients in commercially available drug preparations may have clinically important effects in some individuals; consult specific product labeling for details.
* available from one or more manufacturer, distributor, and/or repackager by generic (nonproprietary) name
Routes | Dosage Forms | Strengths | Brand Names | Manufacturer |
|---|---|---|---|---|
Parenteral | For injection concentrate | 2 mEq of K+/mL and CH3COO-/mL* | Potassium Acetate Injection | Abraxis, American Regent, Hospira |
2 mEq of K+/mL and CH3COO-/mL pharmacy bulk package* | Potassium Acetate Injection | American Regent, Hospira | ||
Potassium Acetate Injection MaxiVial | Abraxis | |||
4 mEq of K+/mL and CH3COO-/mL* | Potassium Acetate Injection | Abraxis, American Regent |
* available from one or more manufacturer, distributor, and/or repackager by generic (nonproprietary) name
Routes | Dosage Forms | Strengths | Brand Names | Manufacturer |
|---|---|---|---|---|
Oral | Tablets, for solution | 10 mEq of K+ | Effer-K (with citric acid 0.84 g) | Nomax |
20 mEq of K+ | Effer-K (with citric acid 1.68 g) | Nomax | ||
25 mEq of K+* | Klor-Con/EF (with citric acid 2.1 g; sugar-free) | Upsher-Smith | ||
Potassium Bicarbonate Effervescent Tablets (with citric acid 1.4 g) | Tower |
* available from one or more manufacturer, distributor, and/or repackager by generic (nonproprietary) name
Routes | Dosage Forms | Strengths | Brand Names | Manufacturer |
|---|---|---|---|---|
Oral | Capsules, extended-release | 8 mEq of K+ and Cl- | Micro-K | Ther-Rx |
10 mEq of K+ and Cl-* | Micro-K | Ther-Rx | ||
Potassium Chloride Extended-Release Capsules (with povidone) | Ethex, Major | |||
For solution | 20 mEq of K+ and Cl- per packet* | K-Lor | Abbott | |
Kay Ciel (sugar-free) | Forest | |||
Klor-Con Powder (sugar-free) | Upsher-Smith | |||
25 mEq of K+ and Cl- per packet | Klor-Con/25 Powder (sugar-free) | Upsher-Smith | ||
Solution | 6.7 mEq of K+/5 mL and Cl-/5 mL* | Kay Ciel (with alcohol 4% and parabens; sugar-free) | Forest | |
Potassium Chloride Oral Solution (with alcohol 4%, citric acid, parabens, and propylene glycol) | Vintage | |||
Potassium Chloride Oral Solution (with alcohol 4%, citric acid, parabens, and propylene glycol; sugar-free) | Vintage | |||
Potassium Chloride Oral Solution (with citric acid and sodium benzoate; sugar-free) | Major | |||
Potassium Chloride Oral Solution (with parabens and propylene glycol; alcohol-free and sugar-free) | Vintage | |||
13.3 mEq of K+/5 mL and Cl-/5 mL* | Potassium Chloride Oral Solution (with alcohol <0.3%, parabens, and propylene glycol; sugar-free) | Vintage | ||
Tablets, extended-release | 10 mEq of K+ and Cl- | Kaon-Cl-10 | Savage | |
Tablets, extended-release (containing coated potassium chloride crystals) | 10 mEq of K+ and Cl-* | Klor-Con M10 | Upsher-Smith | |
Potassium Chloride Extended-Release Tablets | Schering, Teva, Watson | |||
15 mEq of K+ and Cl- | Klor-Con M15 (scored) | Upsher-Smith | ||
20 mEq of K+ and Cl-* | Klor-Con M20 (scored) | Upsher-Smith | ||
Potassium Chloride Extended-Release Tablets (scored) | Schering, Teva, Watson | |||
Potassium Chloride Extended-Release Tablets (with povidone; scored) | Ethex | |||
Tablets, extended-release, film-coated | 8 mEq of K+ and Cl-* | Klor-Con 8 | Upsher-Smith | |
Potassium Chloride Extended-Release Tablets | Sandoz | |||
10 mEq of K+ and Cl-* | Klor-Con 10 | Upsher-Smith | ||
Klotrix (with povidone) | Bristol-Myers Squibb | |||
K-Tab Filmtab | Abbott | |||
Potassium Chloride Extended-Release Tablets | Sandoz | |||
Parenteral | For injection concentrate | 1.5 mEq of K+ and Cl- per mL* | Potassium Chloride for Injection Concentrate | Hospira |
2 mEq of K+ and Cl- per mL* | ||||
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