A novel approach to stabilization of protein drugs in poly(lactic-co-glycolic acid) microspheres using agarose hydrogel

Abstract

A novel approach has been taken to stabilize protein drugs in poly(lactic-co-glycolic acid) (PLGA) microspheres. This approach creates a new protein drug delivery system, which is based on the combination of agarose hydrogel particles and PLGA microspheres. This combination produces a heterogeneously structured polymeric composite. The protein drug molecules are encapsulated in the agarose hydrogel particles and the drug-containing agarose hydrogel particles are further dispersed in the PLGA microspheres. One PLGA microsphere may contain many agarose hydrogel particles to form a PLGA–agarose composite microsphere. The PLGA–agarose composite microspheres have spherical shape and a smooth surface. They possess a normal or Gaussian size distribution and an average diameter of 150 μm. The PLGA–agarose composite microspheres have higher protein loading efficiency than that of the conventional PLGA microspheres. The hydration of the PLGA–agarose composite microsphere matrix is faster than that of the conventional PLGA microspheres. Protein drugs can be slowly released from the PLGA–agarose composite microspheres. The agarose hydrogel particles can stabilize protein drugs in the PLGA matrix, which is the major advantage of this novel protein drug delivery system over the conventional PLGA microspheres.