Issue 16, 2024

Development of a tannic acid- and silicate ion-functionalized PVA–starch composite hydrogel for in situ skeletal muscle repairing

Abstract

The repair capacity of skeletal muscle is severely diminished in massive skeletal muscle injuries accompanied by inflammation, resulting in muscle function loss and scar tissue formation. In the current work, we developed a tannic acid (TA)- and silicate ion-functionalized tissue adhesive poly(vinyl alcohol) (PVA)–starch composite hydrogel, referred to as PSTS (PVA–starch–TA–SiO32−). It was formed based on the hydrogen bonding of TA to organic polymers, as well as silicate–TA ligand interaction. PSTS could be gelatinized in minutes at room temperature with crosslinked network formation, making it applicable for injection. Further investigations revealed that PSTS had skeletal muscle-comparable conductivity and modulus to act as a temporary platform for muscle repairing. Moreover, PSTS could release TA and silicate ions in situ to inhibit bacterial growth, induce vascularization, and reduce oxidation, paving the way to the possibility of creating a favorable microenvironment for skeletal muscle regeneration and tissue fibrosis control. The in vivo model confirmed that PSTS could enhance muscle fiber regeneration and myotube formation, as well as reduce infection and inflammation risk. These findings thereby implied the great potential of PSTS in the treatment of formidable skeletal muscle injuries.

Graphical abstract: Development of a tannic acid- and silicate ion-functionalized PVA–starch composite hydrogel for in situ skeletal muscle repairing

Supplementary files

Article information

Article type
Paper
Submitted
21 Dec 2023
Accepted
11 Mar 2024
First published
13 Mar 2024

J. Mater. Chem. B, 2024,12, 3917-3926

Development of a tannic acid- and silicate ion-functionalized PVA–starch composite hydrogel for in situ skeletal muscle repairing

L. Li, H. Li, Z. Diao, H. Zhou, Y. Bai and L. Yang, J. Mater. Chem. B, 2024, 12, 3917 DOI: 10.1039/D3TB03006G

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