Purpose: To describe the fabrication, evaluation, and preliminary in vivo safety of a new drug delivery system (DDS) for topical anti-TNF-alpha antibody administration. Methods: A DDS was fabricated using inverse template fabrication of a hydrophobic three-dimensional porous scaffold (100-300 mu m in diameter porosity) loaded with 10% polyvinyl alcohol hydrogel carrying 5 mg/ml (weight/volume) of anti-TNF-alpha antibody. Drug-loaded DDS was sterilized with 25 kGy of gamma irradiation. Long-term in vitro antibody affinity and release was evaluated at room temperature or 37 degrees C using enzyme-linked immunosorbent assay (ELISA) and protein fluorescence. In vivo clinical and histolopathological assessment was performed by subcutaneous implantation in BALB/c mice for 3 months. Results: Gamma irradiation, repeated dry/wet cycles, and storage at room temperature for 1 year or 37 degrees C for 1 month had no deleterious effects on antibody affinity. Anti-TNF-alpha release was high during the first minutes of aqueous exposure, followed by stabilization and gradual, low-dose, antibody release over the next 30 days. Histopathologic evaluation of explanted DDS showed a fibrous pseudocapsule and a myxoid acute/chronic inflammation without granuloma formation surrounding the implants. Conclusions: Sustained local delivery of anti-TNF-alpha antibody is feasible using the described DDS, which provides stability of the enclosed antibody for up to 1 year of storage. Preliminary results show good in vivo tolerance following subcutaneous placement for 3 months. The proposed fabrication and sterilization process opens new possibilities for the delivery of biologic agents to the anterior surface of the eye. Translational Relevance: The described DDS will facilitate the treatment of ocular surface diseases amenable to biologic therapy.

• 出版日期2016-3