BACKGROUND: Contrast-induced nephrotoxicity is a significant risk when using radiographic contrast media clinically, especially in high risk patients. Consequently, there is a need for a new contrast agent with improved clinical safety with regards to nephrotoxicity. PURPOSE: To evaluate the physicochemical properties as well as the preclinical safety and biodistribution parameters of the newly developed radiographic contrast medium GE-145. MATERIAL AND METHODS: Standard methods for radiographic contrast media were used for evaluation of physicochemical properties. The acute toxicity in rats was studied at 8, 10, and 12.5 gI/kg, the clinical chemistry parameters were determined, and histology of the kidneys was performed. Biodistribution was studied in rats using ¹²³I-labeled GE-145. RESULTS: GE-145 is more hydrophilic than iodixanol and has a considerably lower osmolality. The viscosity is similar to that of iodixanol and the protein binding is low. The acute toxicity is similar to that of iodixanol and the biodistribution is similar to that of other radiographic contrast media, showing mainly renal excretion. Kidney histology showed a moderate reversible vacuolization, similar to that of iodixanol. CONCLUSION: GE-145 exhibits similar preclinical properties to other dimeric radiographic contrast media. In addition, the low osmolality enables an iso-osmolar formulation containing a significantly higher concentration of electrolytes than Visipaque.
BACKGROUND: Contrast-induced nephrotoxicity is a significant risk when using radiographic contrast media clinically, especially in high risk patients. Consequently, there is a need for a new contrast agent with improved clinical safety with regards to nephrotoxicity. PURPOSE: To evaluate the physicochemical properties as well as the preclinical safety and biodistribution parameters of the newly developed radiographic contrast medium GE-145. MATERIAL AND METHODS: Standard methods for radiographic contrast media were used for evaluation of physicochemical properties. The acute toxicity in rats was studied at 8, 10, and 12.5 gI/kg, the clinical chemistry parameters were determined, and histology of the kidneys was performed. Biodistribution was studied in rats using ¹²³I-labeled GE-145. RESULTS:GE-145 is more hydrophilic than iodixanol and has a considerably lower osmolality. The viscosity is similar to that of iodixanol and the protein binding is low. The acute toxicity is similar to that of iodixanol and the biodistribution is similar to that of other radiographic contrast media, showing mainly renal excretion. Kidney histology showed a moderate reversible vacuolization, similar to that of iodixanol. CONCLUSION:GE-145 exhibits similar preclinical properties to other dimeric radiographic contrast media. In addition, the low osmolality enables an iso-osmolar formulation containing a significantly higher concentration of electrolytes than Visipaque.
Authors: Rachel C Stewart; Amit N Patwa; Hrvoje Lusic; Jonathan D Freedman; Michel Wathier; Brian D Snyder; Ali Guermazi; Mark W Grinstaff Journal: J Med Chem Date: 2017-06-27 Impact factor: 7.446
Authors: Benjamin M Yeh; Paul F FitzGerald; Peter M Edic; Jack W Lambert; Robert E Colborn; Michael E Marino; Paul M Evans; Jeannette C Roberts; Zhen J Wang; Margaret J Wong; Peter J Bonitatibus Journal: Adv Drug Deliv Rev Date: 2016-09-09 Impact factor: 15.470
Authors: Toon Van Cauteren; Gert Van Gompel; Koenraad H Nieboer; Inneke Willekens; Paul Evans; Sven Macholl; Steven Droogmans; Johan de Mey; Nico Buls Journal: Sci Rep Date: 2018-11-30 Impact factor: 4.379