Abstract
An ultrashort pulsed laser is used to directly write large area, electrically conductive tissue scaffolds by photo-polymerisation. The structures are used to optimise the mechanical and electrical stimulation of cardiomyocyte and other cells [1,2]. Polymers used for manufacturing implants are at risk of microbial attachment and biofilm formation leading to infections, thus an understanding of the bacterial-surface interaction is essential for the design of biomaterial surfaces for tissue engineering applications. The aim of this study was to investigate the interaction of Staphylococcus aureus and Pseudomonas aeruginosa, bacteria important in device-associated infections, with laser-modified biomaterials in order to understand the capability of the functionalised biomaterials to promote or inhibit bacterial attachment. Precision structures were written over large area by two-photon polymerisation of a commercially available photoresin using ultrashort pulse femtosecond laser and scaffolds were coated with gold to make them conductive. Three types of hexagonal structures and a smooth surface were written on the polymerised scaffold (Fig. 1a).
© 2023 IEEE
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