Litcius/Paper detail

3D bioprinting of prefabricated artificial skin with multicomponent hydrogel for skin and hair follicle regeneration

Xiaoxiao Ma, Xiaohui Zhu, Sheng Lv, Chunyan Yang, Zihao Wang, M. Liao, Bohao Zhou, Yiming Zhang, Shiyu Sun, Ping Chen, Zhonghua Liu, Haiyan Chen

2025Theranostics20 citationsDOIOpen Access PDF

Abstract

Background:The timely management of large-scale wounds and the regeneration of skin appendages constitute major clinical issues.The production of high-precision and customizable artificial skin via 3D bioprinting offers a feasible means to surmount the predicament, within which the selection of bioactive materials and seed cells is critical.This study is aimed at employing skin stem cells and multicomponent hydrogels to prefabricate artificial skin through 3D bioprinting, which enables the regeneration of skin and its appendages.Methods and Results: We employed gelatin methacrylate (GelMA) and hyaluronic acid methacrylate (HAMA) as bioactive materials, in conjunction with epidermal stem cells (Epi-SCs) and skin-derived precursors (SKPs), to fabricate artificial skin utilizing 3D bioprinting.The photosensitive multicomponent hydrogel, comprising 5% GelMA and 0.5% HAMA, demonstrated excellent printability, suitable solubility and swelling rates, as well as stable mechanical properties.Moreover, this hydrogel exhibited exceptional biocompatibility, effectively facilitating the proliferation of SKPs while maintaining the cellular characteristics of both SKPs and Epi-SCs.The transplantation of this artificial skin into cutaneous wounds in nude mice led to complete wound healing and functional tissue regeneration.The regenerated tissue comprised epidermis, dermis, hair follicles, blood vessels, and sebaceous glands, closely resembling native skin.Remarkably, the artificial skin demonstrated sustained tissue regeneration capacity even after 12 h of in vitro culture, facilitating comprehensive functional skin regeneration.Conclusions: Our research presented a skin repair strategy for prefabricated cell-loaded artificial skin, thereby successfully facilitating the regeneration of the epidermis, dermis, hair follicles, blood vessels, and sebaceous glands within the wound.

Topics & Concepts

Regeneration (biology)Hair follicleArtificial skin3D bioprintingBiomedical engineeringSelf-healing hydrogelsTissue engineeringChemistryAnatomyCell biologyBiologyMedicinePolymer chemistry3D Printing in Biomedical ResearchTissue Engineering and Regenerative MedicineHair Growth and Disorders