Potassium Citrateextended Release
Potassium Citrateextended Release Uses, Dosage, Side Effects, Food Interaction and all others data.
When Potassium Citrateextended Release is given orally, the metabolism of absorbed citrate produces an alkaline load. The induced alkaline load in turn increases urinary pH and raises urinary citrate by augmenting citrate clearance without measurably altering ultrafilterable serum citrate. Thus, Potassium Citrateextended Release therapy appears to increase urinary citrate principally by modifying the renal handling of citrate, rather than by increasing the filtered load of citrate. The increased filtered load of citrate may play some role, however, as in small comparisons of oral citrate and oral bicarbonate, citrate had a greater effect on urinary citrate.
In addition to raising urinary pH and citrate, Potassium Citrateextended Release increases urinary potassium by approximately the amount contained in the medication. In some patients, Potassium Citrateextended Release causes a transient reduction in urinary calcium.
The changes induced by Potassium Citrateextended Release produce urine that is less conducive to the crystallization of stoneforming salts (calcium oxalate, calcium phosphate and uric acid). Increased citrate in the urine, by complexing with calcium, decreases calcium ion activity and thus the saturation of calcium oxalate. Citrate also inhibits the spontaneous nucleation of calcium oxalate and calcium phosphate (brushite).
The increase in urinary pH also decreases calcium ion activity by increasing calcium complexation to dissociated anions. The rise in urinary pH also increases the ionization of uric acid to the more soluble urate ion. Potassium Citrateextended Release therapy does not alter the urinary saturation of calcium phosphate, since the effect of increased citrate complexation of calcium is opposed by the rise in pH-dependent dissociation of phosphate. Calcium phosphate stones are more stable in alkaline urine.
In the setting of normal renal function, the rise in urinary citrate following a single dose begins by the first hour and lasts for 12 hours. With multiple doses the rise in citrate excretion reaches its peak by the third day and averts the normally wide circadian fluctuation in urinary citrate, thus maintaining urinary citrate at a higher, more constant level throughout the day. When the treatment is withdrawn, urinary citrate begins to decline toward the pre-treatment level on the first day.
The rise in citrate excretion is directly dependent on the Potassium Citrateextended Release dosage. Following long-term treatment, Potassium Citrateextended Release at a dosage of 60 mEq/day raises urinary citrate by approximately 400 mg/day and increases urinary pH by approximately 0.7 units.
In patients with severe renal tubular acidosis or chronic diarrheal syndrome where urinary citrate may be very low (<100 mg/day), Potassium Citrateextended Release may be relatively ineffective in raising urinary citrate. A higher dose of Potassium Citrateextended Release may therefore be required to produce a satisfactory citraturic response. In patients with renal tubular acidosis in whom urinary pH may be high, Potassium Citrateextended Release produces a relatively small rise in urinary pH.
Potassium citrate induces changes in the urine which renders urine less susceptible to the formation of crystals and stones from salts e.g. calcium oxalate, calcium phosphate and uric acid. Increased citrate levels in the urine will make complexation with calcium which decrease the calcium ion activity and decrease the chance for the formation of calcium phosphate crystals.Citrate also inhibits the spontaneous nucleation of calcium oxalate and calcium phosphate.
Trade Name | Potassium Citrateextended Release |
Generic | Potassium Citrate |
Potassium Citrate Other Names | Potassium citrate anhydrous, Tripotassium citrate |
Type | |
Formula | C6H5K3O7 |
Weight | Average: 306.394 Monoisotopic: 305.89464697 |
Groups | Approved, Investigational, Vet approved |
Therapeutic Class | Prevention of repeated kidney stone formation |
Manufacturer | |
Available Country | USA |
Last Updated: | September 19, 2023 at 7:00 am |
Uses
Renal Tubular Acidosis (RTA) With Calcium Stones: Potassium citrate is used for the management of renal tubular acidosis
Hypocitraturic Calcium Oxalate Nephrolithiasis Of Any Etiology: Potassium citrate is used for the management of Hypocitraturic calcium oxalate nephrolithiasis
Uric Acid Lithiasis With Or Without Calcium Stones: Potassium citrate is used for the management of Uric acid lithiasis with or without calcium stones
Potassium Citrateextended Release is also used to associated treatment for these conditions: Acidosis, Renal Tubular, Bowel preparation therapy, Constipation, Hypocitraturic calcium oxalate nephrolithiasis, Kidney Stones, Metabolic Acidosis, Uremia, Uric Acid Nephrolithiasis, Chronic metabolic acidosis, Uric acid lithiasis, Laxative
How Potassium Citrateextended Release works
After oral administration of potassium citrate, its metabolism yields alkaline load. Potassium Citrateextended Release therapy appears to increase urinary citrate mainly by modifying the renal handling of citrate, rather than by increasing the filtered load of citrate. In addition to raising urinary pH and citrate, Potassium Citrateextended Release increases urinary potassium by approximately the amount contained in the medication. In some patients, Potassium Citrateextended Release causes a transient reduction in urinary calcium.
Dosage
Potassium Citrateextended Release dosage
Dosing Instructions: Treatment with extended release potassium citrate should be added to a regimen that limits salt intake (avoidance of foods with high salt content and of added salt at the table) and encourages high fluid intake (urine volume should be at least two liters per day). Theobjectiveof treatment with Potassium Citrateextended Release is to provide Potassium Citrateextended Release in sufficient dosage to restore normal urinary citrate (greater than 320 mg/day and as close to the normal mean of 640 mg/day as possible), and to increase urinary pH to a level of 6.0 or 7.0.
Monitor serum electrolytes (sodium, potassium, chloride andcarbon dioxide), serum creatinine and complete blood counts every four months and more frequently in patients with cardiac disease, renal disease or acidosis. Perform electrocardiograms periodically. Treatment should be discontinued if there ishyperkalemia, a significant rise in serum creatinine or a significant fall in blood hemocrit orhemoglobin.
Severe Hypocitraturia: In patients with severe hypocitraturia (urinary citrate <150 mg/day), therapy should be initiated at a dosage of 60 mEq/day (30 mEq two times/day or 20 mEq three times/day with meals or within 30 minutes after meals or bedtime snack). Twenty-four hour urinary citrate and/or urinary pH measurements should be used to determine the adequacy of the initial dosage and to evaluate the effectiveness of any dosage change. In addition, urinary citrate and/or pH should be measured every four months. Doses of Potassium Citrateextended Release greater than 100 mEq/day have not been studied and should be avoided.
Mild To Moderate Hypocitraturia: In patients with mild to moderate hypocitraturia (urinary citrate > 150 mg/day) therapy should be initiated at 30 mEq/day (15 mEq two times/day or 10 mEq three times/day within 30 minutes after meals or bedtime snack). Twenty-four hour urinary citrate and/or urinary pH measurements should be used to determine the adequacy of the initial dosage and to evaluate the effectiveness of any dosage change. Doses of Potassium Citrateextended Release greater than 100 mEq/day have not been studied and should be avoided.
Side Effects
Nausea, vomiting, diarrhea, and stomach pain may occur. Taking it after meals will help prevent these side effects. An empty tablet shell may appear in your stool. This is harmless because your body has already absorbed the medication.
This drug may cause serious stomach or intestinal problems (e.g., bleeding, blockage, puncture). This medication may cause high potassium levels in the blood (hyperkalemia). A very serious allergic reaction to this drug is rare.
Toxicity
LD50 (dog): Intravenous 176 mg/kg.
Precaution
This medication should not be used ifpatient have (Addison's disease), current bladder infection, uncontrolled diabetes, severe heart disease (e.g., recent heart attack, heart damage), certain stomach/intestinal problems (diabetic gastroparesis, conditions decreasing gut movement, peptic ulcer, blockage), severe kidney disease (e.g., inability to make urine), potassium-restricted diet, high potassium levels, severe loss of body water (dehydration).
Before using this medication, tell your doctor or pharmacist your medical history, especially of: low calcium levels, severe diarrhea, heart problems (e.g., irregular heartbeat, heart failure), kidney disease, stomach/gut problems (e.g., irritable bowel), severe tissue damage (e.g., severe burns). Before having surgery, tell your doctor or dentist that you are taking this medication.
Food Interaction
- Take with food. Take potassium citrate within 30 minutes of eating to limit gastrointestinal irritation.
Elimination Route
Urinary; less than 5% unchanged.
Pregnancy & Breastfeeding use
Pregnancy Category C. Animal reproduction studies have not been conducted. It is also not known whether Potassium Citrateextended Release can cause fetal harm when administered to a pregnant woman or can affect reproduction capacity. Potassium Citrateextended Release should be given to a pregnant woman only if clearly needed.
Nursing Mothers: The normal potassium ion content of human milk is about 13 mEq/L. It is not known if Potassium Citrateextended Release has an effect on this content. Potassium Citrateextended Release should be given to a woman who is breast feeding only if clearly needed.
Contraindication
Potassium Citrateextended Release is contraindicated:
- In patients with hyperkalemia (or who have conditions pre-disposing them to hyperkalemia), as a further rise in serum potassium concentration may produce cardiac arrest. Such conditions include: chronic renal failure, uncontrolled diabetes mellitus, acute dehydration, strenuous physical exercise in unconditioned individuals, adrenal insufficiency, extensive tissue breakdown or the administration of a potassium-sparing agent (such as triamterene, spironolactone or amiloride).
- In patients in whom there is cause for arrest or delay in tablet passage through the gastrointestinal tract, such as those suffering from delayed gastric emptying, esophageal compression, intestinal obstruction or stricture, or those taking anticholinergic medication.
- In patients with peptic ulcer disease because of its ulcerogenic potential.
- In patients with active urinary tract infection (with either urea-splitting or other organisms, in association with either calcium or struvite stones). The ability of Potassium Citrateextended Release to increase urinary citrate may be attenuated by bacterial enzymatic degradation of citrate. Moreover, the rise in urinary pH resulting from Potassium Citrateextended Release therapy might promote further bacterial growth.
- In patients with renal insufficiency (glomerular filtration rate of less than 0.7 ml/kg/min), because of the danger of soft tissue calcification and increased risk for the development of hyperkalemia.
Special Warning
Pediatric Use: Safety and effectiveness in children have not been established.
Acute Overdose
Treatment Of Overdosage: The administration of potassium salts to persons without predisposing conditions for hyperkalemia rarely causes serious hyperkalemia at recommended dosages. It is important to recognize that hyperkalemia is usually asymptomatic and may be manifested only by an increased serum potassium concentration and characteristic electrocardiographic changes (peaking of T-wave, loss of P-wave, depression of S-T segment and prolongation of the QT interval). Late manifestations include muscle paralysis and cardiovascular collapse from cardiac arrest.
Treatment measures for hyperkalemia include the following:
- Patients should be closely monitored for arrhythmias and electrolyte changes.
- Elimination of medications containing potassium and of agents with potassium-sparing properties such as potassium-sparing diuretics, ARBs, ACE inhibitors, NSAIDs, certain nutritional supplements and many others.
- Elimination of foods containing high levels of potassium such as almonds, apricots, bananas, beans (lima, pinto, white), cantaloupe, carrot juice (canned), figs, grapefruit juice, halibut, milk, oat bran, potato (with skin), salmon, spinach, tuna and many others.
- Intravenous calcium gluconate if the patient is at no risk or low risk of developing digitalis toxicity.
- Intravenous administration of 300-500 mL/hr of 10% dextrose solution containing 10-20 units of crystalline insulin per 1,000 mL.
- Correction of acidosis, if present, with intravenous sodium bicarbonate.
- Hemodialysis or peritoneal dialysis.
- Exchange resins may be used. However, this measure alone is not sufficient for the acute treatment of hyperkalemia.
Lowering potassium levels too rapidly in patients taking digitalis can produce digitalis toxicity.
Innovators Monograph
You find simplified version here Potassium Citrateextended Release
Potassium Citrateextended Release contains Potassium Citrate see full prescribing information from innovator Potassium Citrateextended Release Monograph, Potassium Citrateextended Release MSDS, Potassium Citrateextended Release FDA label