Cryomilling for the fabrication of doxorubicin-containing silica-nanoparticle/polycaprolactone nanocomposite films

Abstract

Bionanocomposites need to have a homogeneous distribution of nanomaterials in the polymeric matrix to achieve consistent mechanical and biological functions. However, a significant challenge lies in achieving the homogeneous distribution of nanomaterials, particularly through a solvent-free approach. This report introduces a technology to address this need. Specifically, cryomilling, a solvent-free, low-temperature processing method, was applied to generate a bionanocomposite film with well-dispersed nanoparticles. As a proof-of-concept, polycaprolactone (PCL) and doxorubicin-containing silica nanoparticles (Si-Dox) were processed through cryomilling and subsequently heat pressed to form the PCL/Si-Dox (cPCL/Si-Dox) film. Homogeneous distribution of Si-Dox was observed under both confocal imaging and atomic force microscopy imaging. The mechanical properties of cPCL/Si-Dox were comparable to those of the pure PCL film. Subsequent in vitro release profiles suggested that sustained release of Dox from the cPCL/Si-Dox film was achievable over 50 days. When human cervical cancer cells were seeded directly on these films, uptake of Dox was observed as early as day 1 and significant inhibition of cell growth was recorded on day 5.