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Query: UMLS:C0020500 (hyperoxaluria)
 912 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Long-term effects of potassium citrate therapy (usually 60 mEq/day) were examined in 53 patients with renal stones (11 with uric acid lithiasis with complication of calcium stones, 10 with hypocitraturia as the sole abnormality, and 28 with hypocitraturia occurring with other abnormalities such as absorptive hypercalciuria, renal tubular acidosis, hyperuricosuric calcium oxalate nephrolithiasis, and enteric hyperoxaluria). Potassium citrate was given alone in 29 patients, added to thiazide and/or allopurinol treatments in 12 patients who continued to form stones on these treatments, and begun concurrently with thiazide and/or allopurinol in 12 patients with hypocitraturia and other defects (hypercalcuria and/or hyperuricosuria). In all three groups of patients, urinary citrate and pH significantly increased during potassium citrate treatment. Urinary saturation of calcium oxalate significantly declined while that of brushite remained unchanged. The propensity for the spontaneous nucleation of calcium oxalate, determined from the minimum amount of added oxalate required to elicit precipitation, declined. The treatment was effective in preventing new stone formation in all three groups. Stone passage rate declined from 5.14-7.41 stones/patient year before potassium citrate treatment to 0.66-1.33 stones/patient year during treatment, and 75.0-91.7% of patients were in remission. In patients who relapsed on other treatments (with passage of 5.14 stones/patient year), the addition of potassium citrate to the ongoing treatment program reduced stone formation to 1.33 stones/patient year and caused remission in 91.7% of patients. In 14 of 33 patients with preexisting radiopaque stones, there was radiological evidence of a reduced number of stones after 8 months-2 years of potassium citrate treatment. In conclusion, potassium citrate restores normal urinary citrate, decreases saturation and propensity for spontaneous nucleation of calcium oxalate, and inhibits new stone formation.
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PMID:Physiological and physiochemical correction and prevention of calcium stone formation by potassium citrate therapy. 667 57

Therapeutic indications of potassium citrate include: 1. Oxaluric renal stone disease and some cases of uric acid stone disease. Prevention of stone formation in patients with renal polycystic disease. Prevention of stone relapse after ESWL or lithotomy; 2. Distal renal tubular acidosis complicated by hypercalciuria, mainly in children. 3. Renal hypercalciuria and hyperoxaluria. 4. Prevention of renal complications at the time of glaucoma treatment with acetazolamide. 5. Potassium supplementation during treatment of hypertension. Potassium citrate is usually contraindicated in the case of: 1. Urinary tract infection. 2. Struvite renal stone disease. 3. Hyperpotassemia and advanced chronic renal failure. 4. Peptic ulcer or gastritis. 5. Gastrointestinal bleeding. 6. Disorders of coagulation, crural varices. 7. Metabolic alkalosis. Potassium citrate, when used at therapeutic doses, is to be considered as quite safe. The average daily dose even if admitted as a single dose day engages 60-75% of free renal capacity for potassium excretion. Physiologic and therapeutic citrate concentration in urine exceeds much those available for other inhibitors. The therapeutic dose does not induce any significant changes in any biochemical or endocrine parameter of blood except mild transient metabolic alkalosis. The decrease of urine calcium and increase in oxalate calcium phosphate excretion is observed. In hypo-cytriaturic patients the response to therapeutic dose of citrate is smaller. One-year remission of stone disease is observed in 70-75% cases.
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PMID:[Therapeutic use of potassium citrate]. 1147 49

Obesity is a significant health concern and is associated with an increased risk of nephrolithiasis, particularly in women. The underlying pathophysiology of stone formation in obese patients is thought to be related to insulin resistance, dietary factors, and a lithogenic urinary profile. Uric acid stones and calcium oxalate stones are common in these patients. Use of surgical procedures for obesity (bariatric surgery) has risen over the past two decades. Although such procedures effectively manage obesity-dependent comorbidities, several large, controlled studies have revealed that modern bariatric surgeries increase the risk of nephrolithiasis by approximately twofold. In patients who have undergone bariatric surgery, fat malabsorption leads to hyperabsorption of oxalate, which is exacerbated by an increased permeability of the gut to oxalate. Patients who have undergone bariatric surgery show characteristic 24 h urine parameters including low urine volume, low urinary pH, hypocitraturia, hyperoxaluria and hyperuricosuria. Prevention of stones with dietary limitation of oxalate and sodium and a high intake of fluids is critical, and calcium supplementation with calcium citrate is typically required. Potassium citrate is valuable for treating the common metabolic derangements as it raises urinary pH, enhances the activity of stone inhibitors, reduces the supersaturation of calcium oxalate, and corrects hypokalaemia. Both pyridoxine and probiotics have been shown in small studies to reduce hyperoxaluria, but further study is necessary to clarify their effects on stone morbidity in the bariatric surgery population.
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PMID:Stone formation and management after bariatric surgery. 2585 Jul 90