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- Jun Li; Fan Yu; Gong Chen; Jia Liu; Xiao-Long Li; Biao Cheng; Xiu-Mei Mo; Cheng Chen; Jian-Feng Pan
- ACS applied materials & interfaces 2020 v.12 no.2 pp. 2023-2038
- bioadhesives; biocompatibility; biodegradability; chitosan; collagen; compliance; crosslinking; deformation; gelation; granulation tissue; hydrogels; hydrophilicity; laboratory animals; oxidation; rats; schiff bases; starch; therapeutics; tissue repair
- ... In the management of accelerating wound healing, moist environments play an important role. Compared with other scaffolds of various forms, hydrogels can maintain a moist environment in the wound area. They are cross-linked hydrophilic polymeric networks that resemble natural soft tissues and extracellular matrices. Among them, injectable hydrogels have attracted great attention in wound repair, a ...
- Shuai Liu; Xin Liu; Yanhan Ren; Penghui Wang; Yajie Pu; Rong Yang; Xiaoxue Wang; Xiaoyan Tan; Zhiwen Ye; Victor Maurizot; Bo Chi
- ACS applied materials & interfaces 2020 v.12 no.25 pp. 27876-27888
- antibacterial properties; bacteria; bioadhesives; collagen; crosslinking; fibrin; granulation tissue; histology; hyaluronic acid; hydrogels; mixing; models; neonates; peroxidase; rats; schiff bases; tissue repair
- ... Physicians have long been calling for an inherent antimicrobial wound dressing, which will be a great progress for treating complicated infections. Here, we report a novel bioadhesive hydrogel with inherent antibacterial properties prepared by mixing modified hyaluronic acid (HA) and ε-polylysine (EPL). This hydrogel can effectively kill Gram (+) and (−) bacteria for its high positive charge densi ...