An Adhesive Bioink toward Biofabrication under Wet Conditions

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

doi:10.1002/smll.202205078

An Adhesive Bioink toward Biofabrication under Wet Conditions

Wanlu Li
, Mian Wang
, Shiwei Wang
, Xiaoping Wang
, Alan Avila
, Xiao Kuang
, Xuan Mu
, Carlos Ezio Garciamendez
, Zewei Jiang
, Jennifer Manríquez
, Guosheng Tang
, Jie Guo
, Luis Santiago Mille
, Juan Antonio Robledo
, Di Wang
, Feng Cheng
, Hongbin Li
, Regina Sanchez Flores
, Zhibo Zhao
, Clément Delavaux

Zixuan Wang, Arturo López, Sili Yi, Cuiping Zhou, Ameyalli Gómez, Carl Schuurmans, Guo Yuan Yang, Yongting Wang, Xingcai Zhang^*, Ximu Zhang^*, Yu Shrike Zhang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

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.

Original language	English
Article number	2205078
Journal	Small
Volume	19
Issue number	50
DOIs	https://doi.org/10.1002/smll.202205078
State	Published - 13 Dec 2023
Externally published	Yes

Keywords

Chinese giant salamanders
adhesive bioink
bioprinting
underwater
wound healing

Access to Document

10.1002/smll.202205078

Cite this

Li, W., Wang, M., Wang, S., Wang, X., Avila, A., Kuang, X., Mu, X., Garciamendez, C. E., Jiang, Z., Manríquez, J., Tang, G., Guo, J., Mille, L. S., Robledo, J. A., Wang, D., Cheng, F., Li, H., Flores, R. S., Zhao, Z., ... Zhang, Y. S. (2023). An Adhesive Bioink toward Biofabrication under Wet Conditions. Small, 19(50), Article 2205078. https://doi.org/10.1002/smll.202205078

@article{f172ab27420b4551b25fe3b04cae3b43,

title = "An Adhesive Bioink toward Biofabrication under Wet Conditions",

abstract = "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.",

keywords = "Chinese giant salamanders, adhesive bioink, bioprinting, underwater, wound healing",

author = "Wanlu Li and Mian Wang and Shiwei Wang and Xiaoping Wang and Alan Avila and Xiao Kuang and Xuan Mu and Garciamendez, \{Carlos Ezio\} and Zewei Jiang and Jennifer Manr{\'i}quez and Guosheng Tang and Jie Guo and Mille, \{Luis Santiago\} and Robledo, \{Juan Antonio\} and Di Wang and Feng Cheng and Hongbin Li and Flores, \{Regina Sanchez\} and Zhibo Zhao and Cl{\'e}ment Delavaux and Zixuan Wang and Arturo L{\'o}pez and Sili Yi and Cuiping Zhou and Ameyalli G{\'o}mez and Carl Schuurmans and Yang, \{Guo Yuan\} and Yongting Wang and Xingcai Zhang and Ximu Zhang and Zhang, \{Yu Shrike\}",

note = "Publisher Copyright: {\textcopyright} 2022 Wiley-VCH GmbH.",

year = "2023",

month = dec,

day = "13",

doi = "10.1002/smll.202205078",

language = "英语",

volume = "19",

journal = "Small",

issn = "1613-6810",

publisher = "John Wiley and Sons Inc",

number = "50",

}

Li, W, Wang, M, Wang, S, Wang, X, Avila, A, Kuang, X, Mu, X, Garciamendez, CE, Jiang, Z, Manríquez, J, Tang, G, Guo, J, Mille, LS, Robledo, JA, Wang, D, Cheng, F, Li, H, Flores, RS, Zhao, Z, Delavaux, C, Wang, Z, López, A, Yi, S, Zhou, C, Gómez, A, Schuurmans, C, Yang, GY, Wang, Y, Zhang, X, Zhang, X & Zhang, YS 2023, 'An Adhesive Bioink toward Biofabrication under Wet Conditions', Small, vol. 19, no. 50, 2205078. https://doi.org/10.1002/smll.202205078

TY - JOUR

T1 - An Adhesive Bioink toward Biofabrication under Wet Conditions

AU - Li, Wanlu

AU - Wang, Mian

AU - Wang, Shiwei

AU - Wang, Xiaoping

AU - Avila, Alan

AU - Kuang, Xiao

AU - Mu, Xuan

AU - Garciamendez, Carlos Ezio

AU - Jiang, Zewei

AU - Manríquez, Jennifer

AU - Tang, Guosheng

AU - Guo, Jie

AU - Mille, Luis Santiago

AU - Robledo, Juan Antonio

AU - Wang, Di

AU - Cheng, Feng

AU - Li, Hongbin

AU - Flores, Regina Sanchez

AU - Zhao, Zhibo

AU - Delavaux, Clément

AU - Wang, Zixuan

AU - López, Arturo

AU - Yi, Sili

AU - Zhou, Cuiping

AU - Gómez, Ameyalli

AU - Schuurmans, Carl

AU - Yang, Guo Yuan

AU - Wang, Yongting

AU - Zhang, Xingcai

AU - Zhang, Ximu

AU - Zhang, Yu Shrike

PY - 2023/12/13

Y1 - 2023/12/13

N2 - 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.

AB - 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.

KW - Chinese giant salamanders

KW - adhesive bioink

KW - bioprinting

KW - underwater

KW - wound healing

UR - https://www.scopus.com/pages/publications/85145383558

U2 - 10.1002/smll.202205078

DO - 10.1002/smll.202205078

M3 - 文章

C2 - 36587991

AN - SCOPUS:85145383558

SN - 1613-6810

VL - 19

JO - Small

JF - Small

IS - 50

M1 - 2205078

ER -

An Adhesive Bioink toward Biofabrication under Wet Conditions

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this