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Abstract
The relative effectiveness of a poly(L-lactic acid) ciprofloxacin hydrochloride (CIP) microsphere formulation (250–425 μm) against peritoneal implanted biofilm of Pseudomonas aeruginosa was investigated in a rabbit model. Correlations between in-vivo CIP pharmacokinetics in peritoneal dialysate and serum after intraperitoneal administration, in-vivo cell counts and rabbit survival rate were obtained. Dialysate and serum concentrations after 12 h (C12h) were greater than those obtained with free drug whereas maximum serum concentrations (Cmax) were lower and the time to reach Cmax (tmax) was longer. A silastic implant device pre-colonised with P. aeruginosa for 2 days was implanted in the rabbit peritoneum, and dialysate with or without drug or microspheres was administered via a catheter. Rabbits receiving no antibiotic and those receiving free drug (10 mg in dialysate) died of peritonitis and septicaemia, whereas all rabbits given CIP microspheres recovered completely from infection. The viable count of P. aeruginosa was markedly reduced or eliminated from the catheter, the device and the peritoneal wall in CIP microsphere-treated rabbits but not in rabbits treated with free drug, as determined from histological and scanning electronmicroscopic evidence. These results demonstrate that sustained release of antibiotics at biofilm eradication concentrations (BEC) is required to treat biofilm infections associated with peritoneal implanted devices.
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