Spatiotemporal Programing for the On-Demand Release of Bupivacaine Based on an Injectable Composite Hydrogel

We report a programed drug delivery system that can tailor the release of anesthetic bupivacaine in a spatiotemporally controlled manner. The drug delivery system was developed through the combination of a collagen-based injectable hydrogel and 2 types of poly(lactic-co-glycolic acid) (PLGA) particles. As a rapid-release platform (90% release after 24 h), bupivacaine hydrochloride was incorporated into collagen/poly(γ-glutamic acid) hydrogel, which exhibited gel formation at body temperature. PLGA microparticles (diameter 1-3 μm) containing bupivacaine base showed a very slow release of bupivacaine (95% after 240 h), whereas PLGA nanoparticles (124 ± 30 nm) containing bupivacaine base demonstrated an intermediate release rate (95% after 160 h). By changing the relative composition ratio between the 3 components in these injectable composite hydrogels, the release of bupivacaine could be easily controlled from very rapid (within 1 day) to very delayed (up to 9 days). The experimental results on the release data (cumulative release, time point release, average release rate) were coincident with the release profile generated by computer simulation. These injectable composite hydrogels with systematically tunable mixing ratios are expected to serve as a promising technology for the on-demand release of bupivacaine in pain management.