Table 1.
The Roles of Antibiotic Substance and Their Wound Dressings
| Examples | Antibiotic Substance | Other Therapeutic Effects |
|---|---|---|
| SNPECHG hydrogel54 | Ag+ | Re-epithelization, sufficient collagen deposition, and accelerated collagen maturation |
| Chitosan-PEG-Silver Nitrate based hydrogel55 | Antioxidant | |
| Chitosan/PVA/ZnO nanofibrous membranes | Zn2+ | Antioxidant |
| VEGF-decorated t-ZnO-laden hydrogel patches59 | Improved angiogenesis | |
| PABC scaffolds61 | Cu2+ | Enhancing HIF-1α/VEGF expression, improved angiogenesis and collagen matrix deposition |
| HKUST-Hs62 | Inhibiting oxidative stress (antioxidant) | |
| @Cu-MOF hydrogel63 | Low cytotoxicity and high antibacterial activity | |
| Green Tea Derivative Driven Smart Hydrogels65 | EGCG | Antioxidation, antiinflammatory improved angiogenesis, and modulation of macrophage polarization |
| FHE@exosomes (FHE@exo) hydrogel71 | Poly-ε-L-lysine (EPL) | Improving the proliferation, migration, and tube formation ability of HUVECs (angiogenesis) |
| The double-network (DN) G-PAGL hydrogel dressing73 | Improving collagen deposition, angiogenesis, and inhibiting bacterial breed | |
| GelMA-DOPA-AMP-CeONs Hydrogel75 | AMPs | ROS scavenging and wound healing |
| TA@bilayer hydrogel77 | TA | Adhesion, self-healing, and antioxidant |
| Selenium-chitosan-Mupirocin nanohybrid System83 | Mupirocin | Improving angiogenesis, fibroblastosis, collagenesis, proliferation of hair follicle, and epidermis growth |
| Chitosan-Based Self-Healable Hydrogel System84 | Chitosan (CTS) | Biocompatibility, injectability, and self-healable properties |