Stability of ceftazidime and aminophyline carried by Pluronic®F68 in parenteral solutions. Green Fluorescent Protein (GFP) as a biossensor for drug stability in parenteral solutions

Drug association administered through parenteral solutions is a common hospital practice. Copolymers as carriers in parenteral solutions may allow originally unstable or insoluble drug combinations, or even improve their action. The aim of this work was to evaluate the stability of ceftazidime and aminophylline in parenteral solutions carried by Pluronic® F68, besides the application of the green fluorescent protein as a biossensor of drug stability. To evaluate the stability of ceftazidime (320 µg/mL) and aminophylline (160 µg/mL) carried by Pluronic® F68 (10%) in parenteral solutions, HPLC measurements were made immediately after the drug mixture preparation and after 24 hours, detected at λ=255nm (ceftazidime) and λ=275nm (aminophylline). In addition, minimal inhibitory concentration test (MIC) was used to determine the biological activity of ceftazidime (240 µg/mL) in 5% glucose parenteral solution, with or without Pluronic® F68 (10%). The strains tested by MIC were E. coli ATCC 25922 and P.aeruginosa ATCC 9721 (106UFC/mL). The HPLC experiments showed incompatibility of ceftazidime and aminophylline associated in 5% glucose parenteral solution, with 25% loss for ceftazidime without Pluronic® F68. MIC analysis for ceftazidime, with or without aminophylline, showed that lower antibiotic concentration values were required to inhibit E. coli and P.aeruginosa growth, when the copolymer Pluronic® F68 was present in the samples. It was also showed that physical chemical drugs alterations, pH values and protein-parenteral solution interactions can change GFP fluorescence intensity (detected by espectrofluorimeter λex=394nm, λem=509nm). These data endorse the potential of this protein as a biosensor of drug stability in parenteral solutions. (AU)