Kidney stones affect 1 in every 11 people in the US each year. In patients with kidney stones who are prescribed medications for stone management, only 30.2% are adherent to a medication regime and even fewer, only 13.4 % are adherent with citrate medications. Prescription potassium citrate can be expensive for many patients, leading to non-compliance. Sodium bicarbonate is a potential medication alternative that is cheaper and can potentially alkalinize the urine and/or decrease the risk of future kidney stones. However, efficacy of alternatives to potassium potassium citrate are not well studied. This study seeks to evaluate sodium bicarbonate and assess its ability to alkalinize urine in a cohort of patients with kidney stones and compare this to prescription potassium citrate.
Kidney stones affect 1 in every 11 people in the United States each year. A recurrence rate of 50% at 10 years highlights the importance of metabolic management, which has shown to be effective at decreasing the recurrence of stone disease. Specialty guidelines have recommended that clinicians offer pharmacologic therapy to recurrent stone formers. However, among kidney stone patients prescribed medication for stone management, only 30.2% are adherent to a medication regimen and even fewer, only 13.4%, are adherent with citrate medications. Prescription potassium citrate (Kcit) can be cost-prohibitive for many patients, leading to non-compliance. The combination of the effectiveness of medication with the prohibitory cost of the prescriptions has led to the exploration of treatment alternatives which promise to alkalinize the urine and/or decrease the risk of future kidney stones, including sodium bicarbonate. However, the efficacy of these alternatives in comparison to Kcit are not well studied and often include other alkali equivalents. A short-term study with limited sample size suggests sodium bicarbonate to be a viable alternative to Kcit. Our goal is to evaluate sodium bicarbonate and assess its ability to alkalinize urine in a cohort of stone-forming patients and compare this to prescription Kcit.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
30
20 mEq Kcit twice a day (40 mEq daily
650 mg sodium bicarbonate twice a day (35.2 mEq daily)
University of California, Los Angeles
Los Angeles, California, United States
University of California, Davis
Sacramento, California, United States
University of California, San Diego
San Diego, California, United States
Brigham & Women's
Boston, Massachusetts, United States
CHUM
Montreal, Canada
Landspitali- National University Hospital of Iceland
Reykjavik, Iceland
Change in 24-Hour Urinary Citrate Excretion from 24-Hour Urine Collection
Change in 24-hour urinary citrate excretion measured from 24-hour urine collections obtained at baseline and after intervention. To determine if sodium bicarbonate is not significantly worse than potassium citrate by more than a clinically acceptable margin of -10 Unit: mg/day
Time frame: 14 days
Change in Urine pH Measured from 24-Hour Urine Collection
Change in urine pH measured from 24 hour urine collections obtained at baseline and after intervention units: pH
Time frame: 14 days
Change in 24 hour Urinary Ammonia Excretion from 24 Hour Urine Collection
Change in 24 hour urinary ammonia excretion from 24 hour urine collections obtained at baseline and after intervention Unit: mmol/day
Time frame: 14 days
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