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Tissue adhesive composite with 2D gradient modulus for effective wound closure on tissue with anisotropic properties

Tissue adhesive composite with 2D gradient modulus for effective wound closure on tissue with anisotropic properties
Tissue adhesive composite with 2D gradient modulus for effective wound closure on tissue with anisotropic properties
Wound closure on tissue with anisotropic elastic modulus in dynamic conditions is challenging. Tissue adhesive hydrogel with homogenous modulus could not effectively prevent wound tear in dynamic conditions, while previously reported tissue adhesive composite with one17 dimensional gradient modulus properties was not effective for wound closure on tissue with anisotropic properties. To deal with this issue, this study presents a strategy to design the biocompatible tissue adhesive composite with two-dimensional anisotropic gradient modulus, which is composed of a tissue adhesive matrix and a micro-mesh backbone. A numerically controlled angular solution blow spinning technique was developed to fabricate the micro-mesh with controllable gradient modulus properties. Using the micro-mesh as the backbone, tissue adhesive composite of two-dimensional anisotropic gradient modulus properties (2D A-GmTAC) could be conveniently prepared. Through systematic investigation and simulation, 2D A-GmTAC can effectively prevent wound tear and minimize stress concentration on tissue with tissue with anisotropic elastic modulus, demonstrating superior performance over its counterpart with isotropic elastic modulus properties. This study thus provides an effective solution for the management of challenging wounds on tissue with anisotropic elastic properties in dynamic conditions.
anisotropic properties, gradient modulus, tissue adhesive composite, wound closure, wound tear
2452-2139
Guo, Shuang
2535a649-53e6-422c-bcec-171666093a18
Liu, Na
cf593be7-8d87-45b9-ab79-3cca278bb7e1
Wu, Haoran
115bc64c-b0fa-407f-8924-a6695399b41f
Liu, Zhuopeng
d82e441b-4a3f-4425-ad30-2942399b060c
Deng, Maosen
b17712a3-cd8c-45f7-ae43-1b1fd2764b50
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Li, Zhe
5dd13980-9a55-4b54-a7b5-29b59a5ec157
Guo, Shuang
2535a649-53e6-422c-bcec-171666093a18
Liu, Na
cf593be7-8d87-45b9-ab79-3cca278bb7e1
Wu, Haoran
115bc64c-b0fa-407f-8924-a6695399b41f
Liu, Zhuopeng
d82e441b-4a3f-4425-ad30-2942399b060c
Deng, Maosen
b17712a3-cd8c-45f7-ae43-1b1fd2764b50
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Li, Zhe
5dd13980-9a55-4b54-a7b5-29b59a5ec157

Guo, Shuang, Liu, Na, Wu, Haoran, Liu, Zhuopeng, Deng, Maosen, Li, Xuan and Li, Zhe (2025) Tissue adhesive composite with 2D gradient modulus for effective wound closure on tissue with anisotropic properties. Composites Communications, 58, [102476]. (doi:10.1016/j.coco.2025.102476).

Record type: Article

Abstract

Wound closure on tissue with anisotropic elastic modulus in dynamic conditions is challenging. Tissue adhesive hydrogel with homogenous modulus could not effectively prevent wound tear in dynamic conditions, while previously reported tissue adhesive composite with one17 dimensional gradient modulus properties was not effective for wound closure on tissue with anisotropic properties. To deal with this issue, this study presents a strategy to design the biocompatible tissue adhesive composite with two-dimensional anisotropic gradient modulus, which is composed of a tissue adhesive matrix and a micro-mesh backbone. A numerically controlled angular solution blow spinning technique was developed to fabricate the micro-mesh with controllable gradient modulus properties. Using the micro-mesh as the backbone, tissue adhesive composite of two-dimensional anisotropic gradient modulus properties (2D A-GmTAC) could be conveniently prepared. Through systematic investigation and simulation, 2D A-GmTAC can effectively prevent wound tear and minimize stress concentration on tissue with tissue with anisotropic elastic modulus, demonstrating superior performance over its counterpart with isotropic elastic modulus properties. This study thus provides an effective solution for the management of challenging wounds on tissue with anisotropic elastic properties in dynamic conditions.

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Tissue Adhesive Composite with 2D Gradient Modulus for Effective Wound Closure on Tissue wit - Proof
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More information

Accepted/In Press date: 24 May 2025
e-pub ahead of print date: 7 June 2025
Published date: 13 June 2025
Keywords: anisotropic properties, gradient modulus, tissue adhesive composite, wound closure, wound tear

Identifiers

Local EPrints ID: 503455
URI: http://eprints.soton.ac.uk/id/eprint/503455
DOI: doi:10.1016/j.coco.2025.102476
ISSN: 2452-2139
PURE UUID: 59854f31-b274-43b2-8d52-57326c0cf841
ORCID for Xuan Li: ORCID iD orcid.org/0000-0002-5655-8631

Catalogue record

Date deposited: 01 Aug 2025 16:34
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Shuang Guo
Author: Na Liu
Author: Haoran Wu
Author: Zhuopeng Liu
Author: Maosen Deng
Author: Xuan Li ORCID iD
Author: Zhe Li

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