International journal of pharmaceutics
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The purpose of this study is to develop biodegradable drug-eluting pellets to provide a sustainable delivery of cisplatin intrapleurally. Poly(d,l)-lactide-co-glycolide (PLGA) (LA:GA=50:50) copolymer and cisplatin were mixed, compressed, and sintered to construct biodegradable pellets and placed in phosphate-buffered saline to test the characteristics of in vitro release. In vivo, equal amounts of cisplatin (10mg/kg) were introduced into rabbit pleural cavities either by free form (Gr1) or pellets form (Gr2). ⋯ In vivo, the cisplatin level in the pleural fluid was equally high during the first 2 days but dropped quickly in Gr1 while remaining high in Gr2 for 18 days, the difference was statistically significant (P<0.001) In contrast, the plasma cisplatin level was 10 times significantly higher in Gr1 than in Gr2 (P<0.001), which resulted in two early deaths of rabbits. Thus we concluded that our biodegradable pellets could achieve high and steady cisplatin release in the pleural cavity. This novel drug delivery system may have the potential to serve as an adjuvant treatment for malignant pleural lesion.