Nanogels loading curcumin in situ through microemulsion photopolymerization for enhancement of antitumor effects†
Abstract
Drug-loaded nanogels for cancer treatment can limit the free diffusion and distribution of drug molecules in the whole body to reduce undesirable side effects and improve the drug absorption efficiency of the tumor. In this study, curcumin as a model drug was encapsulated into nanogels in situ through microemulsion photopolymerization at 532 nm. Nanogels loaded with curcumin (NG-C) displayed a diameter of around 150 nm with good stability and a low polydispersity index of around 0.1. NG-C had a drug-loading capacity of 8.96 ± 1.16 wt%. The cumulative release of curcumin from NG-C was around 25%, 34% and 55% within 90 h in pH 7.4, 6.8 and 5.0 PBS buffer, respectively. NG-C presented prominent cytotoxicity toward Hep G2 and HeLa cancer cells in vitro. Moreover, NG-C exhibited much a stronger inhibition of tumor growth, necrosis, apoptosis, and the suppression of proliferation compared with curcumin on Hep G2 tumor-bearing nude mice.
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