BACKGROUND: Normalization of serum phosphorus is critical in the treatment of End Stage Renal Failure patients. Aluminum or calcium based phosphate binders, while efficacious, are associated with potential adverse side effects and toxicities. We have developed RenaGel, a novel, non-absorbed hydrogel which binds dietary phosphate leading to increased fecal excretion, decreased absorption and decreased serum phosphorus levels. In this paper, we present results from both in vitro and in vivo studies in which we examined the efficacy of this novel phosphate binder. METHODS: In vitro, RenaGel was suspended in the test solution, and the mixture was stirred for 1 hour at room temperature. The solid was then filtered off, and the residual liquid analyzed for phosphate. In vivo, RenaGel was mixed in rodent feed at different concentrations and fed to normal rats for up to 4 days. Urine was collected and analysed for phosphate content. RESULTS AND CONCLUSIONS: In vitro binding studies demonstrate that RenaGel has an extremely high phosphate binding capacity. At an estimated physiological concentration of 5 mM phosphate, RenaGel binds 2.6 mmole phosphate/g of phosphate binder. The in vivo binding study shows that RenaGel mixed into the diet decreased urinary phosphorus excretion in a dose dependent manner. RenaGel particles with a 23 microns mean diameter are more efficacious than the larger ones. In conclusion, the above studies indicate that RenaGel is a potent phosphate binder. RenaGel contains no calcium or aluminum and offers an alternative to existing phosphate binder treatments.
BACKGROUND: Normalization of serum phosphorus is critical in the treatment of End Stage Renal Failurepatients. Aluminum or calcium based phosphate binders, while efficacious, are associated with potential adverse side effects and toxicities. We have developed RenaGel, a novel, non-absorbed hydrogel which binds dietary phosphate leading to increased fecal excretion, decreased absorption and decreased serum phosphorus levels. In this paper, we present results from both in vitro and in vivo studies in which we examined the efficacy of this novel phosphate binder. METHODS: In vitro, RenaGel was suspended in the test solution, and the mixture was stirred for 1 hour at room temperature. The solid was then filtered off, and the residual liquid analyzed for phosphate. In vivo, RenaGel was mixed in rodent feed at different concentrations and fed to normal rats for up to 4 days. Urine was collected and analysed for phosphate content. RESULTS AND CONCLUSIONS: In vitro binding studies demonstrate that RenaGel has an extremely high phosphate binding capacity. At an estimated physiological concentration of 5 mM phosphate, RenaGel binds 2.6 mmole phosphate/g of phosphate binder. The in vivo binding study shows that RenaGel mixed into the diet decreased urinary phosphorus excretion in a dose dependent manner. RenaGel particles with a 23 microns mean diameter are more efficacious than the larger ones. In conclusion, the above studies indicate that RenaGel is a potent phosphate binder. RenaGel contains no calcium or aluminum and offers an alternative to existing phosphate binder treatments.
Authors: Moustafa Moustafa; Lawrence Lehrner; Fahd Al-Saghir; Mark Smith; Sunita Goyal; Maureen Dillon; John Hunter; Randy Holmes-Farley Journal: Int J Nephrol Renovasc Dis Date: 2014-04-07