BACKGROUND: Currently available calcium- and aluminium-based phosphate binders are dose limited because of potential toxicity, and newer proprietary phosphate binders are expensive. We examined phosphate-binding effects of the bile acid sequestrant colestipol, a non-proprietary drug that is in the same class as sevelamer. METHODS: The trial was an 8 week prospective feasibility study in stable hemodialysis patients using colestipol as the only phosphate binder, preceded and followed by a washout phase of all other phosphate binders. The primary study endpoint was weekly measurements of serum phosphate. Secondary endpoints were serum calcium, lipids and coagulation status. Analyses used random effects mixed models. RESULTS: Thirty patients were screened for participation of which 26 met criteria for treatment. At a mean dose of 8.8 g/24 h of colestipol by study end, serum phosphate dropped from 2.24 to 1.96 mmol/L (P < 0.001). Three patients required calcium supplementation. LDL cholesterol dropped from 1.75 to 1.2 mmol/L (P < 0.001). Three patients dropped out because of side effects or intolerance of the required dose. CONCLUSION: The results support the feasibility of a larger trial to determine the efficacy of colestipol as a phosphate binder and that other non-proprietary anion-exchange resins may also warrant investigation.
BACKGROUND: Currently available calcium- and aluminium-based phosphate binders are dose limited because of potential toxicity, and newer proprietary phosphate binders are expensive. We examined phosphate-binding effects of the bile acid sequestrant colestipol, a non-proprietary drug that is in the same class as sevelamer. METHODS: The trial was an 8 week prospective feasibility study in stable hemodialysis patients using colestipol as the only phosphate binder, preceded and followed by a washout phase of all other phosphate binders. The primary study endpoint was weekly measurements of serum phosphate. Secondary endpoints were serum calcium, lipids and coagulation status. Analyses used random effects mixed models. RESULTS: Thirty patients were screened for participation of which 26 met criteria for treatment. At a mean dose of 8.8 g/24 h of colestipol by study end, serum phosphate dropped from 2.24 to 1.96 mmol/L (P < 0.001). Three patients required calcium supplementation. LDL cholesterol dropped from 1.75 to 1.2 mmol/L (P < 0.001). Three patients dropped out because of side effects or intolerance of the required dose. CONCLUSION: The results support the feasibility of a larger trial to determine the efficacy of colestipol as a phosphate binder and that other non-proprietary anion-exchange resins may also warrant investigation.