Litcius/Paper detail

Mechanically skin-like and water-resistant self-healing bioelastomer for high-tension wound healing

Jinyi Huang, Hongying Chen, Zenghui Jia, Xingqi Song, Sinan Wang, Baoshuai Bai, Jian Wang, Junfeng Zhang, Guangdong Zhou, Lei Dong

2024Bioactive Materials10 citationsDOIOpen Access PDF

Abstract

The biomedical application of self-healing materials in wet or (under)water environments is quite challenging because the insulation and dissociation effects of water molecules significantly reduce the reconstruction of material-interface interactions. Rapid closure with uniform tension of high-tension wounds is often difficult, leading to further deterioration and scarring. Herein, a new type of thermosetting water-resistant self-healing bioelastomer (WRSHE) was designed by synergistically incorporating a stable polyglycerol sebacate (PGS) covalent crosslinking network and triple hybrid dynamic networks consisting of reversible disulfide metathesis (SS), and dimethylglyoxime urethane (Dou) and hydrogen bonds. And a resveratrol-loaded WRSHE (Res@WRSHE) was developed by a swelling, absorption, and crosslinked network locking strategy. WRSHEs exhibited skin-like mechanical properties in terms of nonlinear modulus behavior, biomimetic softness, high stretchability, and good elasticity, and they also achieved ultrafast and highly efficient self-healing in various liquid environments. For wound-healing applications of high-tension full-thickness skin defects, the convenient surface assembly by self-healing of WRSHEs provides uniform contraction stress to facilitate tight closure. Moreover, Res@WRSHEs gradually release resveratrol, which helps inflammatory response reduction, promotes blood vessel regeneration, and accelerates wound repair.

Topics & Concepts

Self-healingMaterials scienceWound healingResveratrolSelf-healing materialComposite materialBiomedical engineeringChemistrySurgeryBiochemistryMedicinePathologyAlternative medicineWound Healing and TreatmentsPolymer composites and self-healingAdvanced Sensor and Energy Harvesting Materials