Chronic skin wounds place a high burden on patients and health care systems. The use of angiogenic and mitogenic growth factors (GF) can facilitate the healing but GF are quickly inactivated by the wound environment if added exogenously. Here, free-standing multilayer films (FSF) are fabricated from chitosan (CHI) and alginate (ALG) as opposing polyelectrolytes in an alternating manner using layer-by-layer technique (LbL). One hundred bilayers form an about 450 micrometer thick, detachable free-standing film (N-FSF) that is subsequently crosslinked by either ethyl (dimethylaminopropyl) carbodiimide (EDC) combined with N-hydroxysuccinimide (NHS) (E-FSF) or genipin (G-FSF). The characterization of swelling, oxygen permeability and crosslinking density shows reduced swelling and oxygen permeability for both crosslinked films compared to N-FSF. Loading of fibroblast growth factor 2 (FGF2) into the films results in a sustained release of GF from crosslinked in comparison to N-FSF. Biocompatibility studies in vitro with human dermal fibroblasts (HDF) cultured underneath the films demonstrate increased cell growth and cell migration for all films with and without FGF2. Especially G-FSF loaded with FGF2 greatly increases cell proliferation and migration. In vivo biocompatibility studies by subcutaneous implantation in mice show that E-FSF causes a strong inflammatory response while G-FSF is of high biocompatibility. N-FSF also represents a biocompatible film but shows early degradation. All FSF possess antibacterial properties against gram+ and gram- bacteria demonstrated by an agar diffusion disc assay. In summary, FSF made of ALG and CHI crosslinked with genipin can act as a reservoir for the sustained release of FGF2, possessing high biocompatibility in vitro and in vivo. Moreover, G-FSF promotes growth and migration of HDF and has antibacterial properties which makes it an interesting candidate for bioactive wound dressings.
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