Enhancement of therapeutic efficacy of bleomycin by incorporation into biodegradable poly-d,l-lactic acid

ABSTRACT A new system for the delivery bleomycin (BLM) to target lesions was established by incorporating BLM into a small cylinder
of a biodegradable polylactic acid (PLA) of low molecular weight. Cross-sectional analysis of the system (BLM-PLA) showed
that BLM particles were uniformly enclosed in the PLA matrix. In vitro studies demonstrated that BLM was released continuously
for more than 3 weeks from BLM-PLA immersed in saline. BLM-PLA was implanted subcutaneously into the backs of rats. A high
concentration of BLM was maintained in the connective tissues near the implants for 2 weeks. In contrast, the level of BLM
activity was low when a BLM solution (BLM-SOL) was administered subcutaneously by injection. The concentration of BLM in the
abdominal lymph nodes was significantly higher following BLM-PLA implantation than following subcutaneous BLM-SOL injection.
The inhibitory effects of BLM-PLA and BLM-SOL on tumor growth were compared with no treatment using a subcutaneously transplanted
Yoshida sarcoma. The antitumor effect of BLM-PLA was significantly higher than that of BLM-SOL and no treatment. BLM-PLA also
resulted in a more favorable distribution of BLM than BLM-SOL. Thus, BLM-PLA proved to be effective in controlling this experimentally
transplanted tumor.