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A sustainable and self-healable silk fibroin nanocomposite with antibacterial and drug eluting properties for 3D printed wound dressings

Sana Sheybanikashani, Nooshin Zandi, Danial Hosseini, Roya Lotfi, Abdolreza Simchi

2023Journal of Materials Chemistry B23 citationsDOI

Abstract

biocompatibility studies through subcutaneous implantation also do not show malignancy, infection, abscess, necrosis, epidermal or dermal modifications, or inflammation of the wounds after 14 days post-injection. H&E staining shows that the biodegradation of the developed hydrogel facilitates the growth of non-inflammatory cells, leading to the substitution of the injected hydrogel with autologous tissue. The detailed analyses affirm that the multifunctional injectable hydrogel with self-healing and antibacterial properties has high potential for wound healing and skin tissue engineering.

Topics & Concepts

FibroinMaterials scienceNanocompositeComposite materialSILKNanotechnologySilk-based biomaterials and applicationsBone Tissue Engineering MaterialsWound Healing and Treatments
A sustainable and self-healable silk fibroin nanocomposite with antibacterial and drug eluting properties for 3D printed wound dressings | Litcius