Micro-structured 3D-electrospun scaffolds of biodegradable block copolymers for soft tissue regeneration

The present article describes the application of a poly(ethylene terephthalate) mesh as template for the preparation of micro-structured fibres mat by electrospinning of biodegradable triblock copolymers based on polylactic acid and poly(butylene succinate/azelate) random copolymer. These copolymers present and excellent controlled biodegradation process in physiological conditions, with interesting applications in targeting and controlled release of different drugs. After the application of the poly(ethylene terephthalate) mesh in the electrospinning process, the detachment of the template provides a specific oriented microfibres mat, that affect to the adhesion and proliferation of cell seeded on the networks. In addition, the microfibres mats were loaded with dexamethasone as anti-inflammatory drug. The release of the drug takes place in a controlled relative short period due to the formation of drug crystals on the surface of the fibres during the electrospinning process. This issue can be restrained by acting on the triblock copolymer composition, improving the drug-polymer compatibility. Copolymerization also allows the modulation of the biodegradation rate. The biodegradable scaffolds under investigation can be therefore considered very promising for regenerative medicine and soft tissue engineering.