Details

Autor(en) / Beteiligte

• Li, Wanlu
• Wang, Mian
• Wang, Shiwei
• Wang, Xiaoping
• Avila, Alan
• Kuang, Xiao
• Mu, Xuan
• Garciamendez, Carlos Ezio
• Jiang, Zewei
• Manríquez, Jennifer
• Tang, Guosheng
• Guo, Jie
• Mille, Luis Santiago
• Robledo, Juan Antonio
• Wang, Di
• Cheng, Feng
• Li, Hongbin
• Flores, Regina Sanchez
• Zhao, Zhibo
• Delavaux, Clément
• Wang, Zixuan
• López, Arturo
• Yi, Sili
• Zhou, Cuiping
• Gómez, Ameyalli
• Schuurmans, Carl
• Yang, Guo‐Yuan
• Wang, Yongting
• Zhang, Xingcai
• Zhang, Ximu
• Zhang, Yu Shrike

Titel

An Adhesive Bioink toward Biofabrication under Wet Conditions

Ist Teil von

• Small (Weinheim an der Bergstrasse, Germany), 2023-12, Vol.19 (50), p.e2205078-n/a

Ort / Verlag

Germany: Wiley Subscription Services, Inc

Erscheinungsjahr

2023

Link zum Volltext

Quelle

Wiley Online Library Journals Frontfile Complete

Beschreibungen/Notizen

• Three‐dimensional (3D) bioprinting is driving significant innovations in biomedicine over recent years. Under certain scenarios such as in intraoperative bioprinting, the bioinks used should exhibit not only cyto/biocompatibility but also adhesiveness in wet conditions. Herein, an adhesive bioink composed of gelatin methacryloyl, gelatin, methacrylated hyaluronic acid, and skin secretion of Andrias davidianus is designed. The bioink exhibits favorable cohesion to allow faithful extrusion bioprinting in wet conditions, while simultaneously showing good adhesion to a variety of surfaces of different chemical properties, possibly achieved through the diverse bonds presented in the bioink formulation. As such, this bioink is able to fabricate sophisticated planar and volumetric constructs using extrusion bioprinting, where the dexterity is further enhanced using ergonomic handheld bioprinters to realize in situ bioprinting. In vitro experiments reveal that cells maintain high viability; further in vivo studies demonstrate good integration and immediate injury sealing. The characteristics of the bioink indicate its potential widespread utility in extrusion bioprinting and will likely broaden the applications of bioprinting toward situations such as in situ dressing and minimally invasive tissue regeneration. A multi‐component bioink is designed, to exhibit favorable cohesion to allow faithful extrusion bioprinting under wet conditions while simultaneously showing good adhesion to a variety of surfaces. The characteristics of the bioink indicate its potential widespread utility in extrusion bioprinting and will likely broaden the applications of bioprinting toward situations such as in situ dressing and minimally invasive tissue regeneration.