Sodium zirconium cyclosilicate and metabolic acidosis: Potential mechanisms and clinical consequences

Sodium zirconium cyclosilicate and metabolic acidosis: Potential mechanisms and clinical consequences

Metabolic acidosis is frequent in chronic kidney disease (CKD) and is associated with accelerated progression of CKD, hypercatabolism, bone disease, hyperkalemia, and mortality. Clinical guidelines recommend a target serum bicarbonate ≥ 22 mmol/L, but metabolic acidosis frequently remains undiagnose...

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Bibliographic Details
Main Authors: Raul Fernandez-Prado, Priscila Villalvazo, Alejandro Avello, Marina Gonzalez-de-Rivera, Michelle Aguirre, Carlos G. Carrasco-Muñoz, Beatriz Fernandez-Fernandez, Catalina Martin-Cleary, Sol Carriazo, Maria Dolores Sanchez-Niño, Maria Vanessa Perez-Gomez, Alberto Ortiz
Format: Article
Language:English
Published: Elsevier 2023-02-01
Series:Biomedicine & Pharmacotherapy
Subjects:
Chronic kidney disease
Veverimer
Sodium bicarbonate
Hyperkalemia
Carbamylation
Urea
Online Access:http://www.sciencedirect.com/science/article/pii/S0753332222015864
Description
Summary:Metabolic acidosis is frequent in chronic kidney disease (CKD) and is associated with accelerated progression of CKD, hypercatabolism, bone disease, hyperkalemia, and mortality. Clinical guidelines recommend a target serum bicarbonate ≥ 22 mmol/L, but metabolic acidosis frequently remains undiagnosed and untreated. Sodium zirconium cyclosilicate (SZC) binds potassium in the gut and is approved to treat hyperkalemia. In clinical trials with a primary endpoint of serum potassium, SZC increased serum bicarbonate, thus treating CKD-associated metabolic acidosis. The increase in serum bicarbonate was larger in patients with more severe pre-existent metabolic acidosis, was associated to decreased serum urea and was maintained for over a year of SZC therapy. SZC also decreased serum urea and increased serum bicarbonate after switching from a potassium-binding resin in normokalemic individuals. Mechanistically, these findings are consistent with SZC binding the ammonium ion (NH4+) generated from urea by gut microbial urease, preventing its absorption and, thus, preventing the liver regeneration of urea and promoting the fecal excretion of H+. This mechanism of action may potentially result in benefits dependent on corrected metabolic acidosis (e.g., improved well-being, decreased catabolism, improved CKD mineral bone disorder, better control of serum phosphate, slower progression of CKD) and dependent on lower urea levels, such as decreased protein carbamylation. A roadmap is provided to guide research into the mechanisms and clinical consequences of the impact of SZC on serum bicarbonate and urate.
ISSN:0753-3322

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