Shuilin Wu

TL;DR: An overview of the design of ideal biomimetic porous scaffolds for bone tissue engineering is presented, and concepts and techniques including the production of a hierarchical structure on both the macro- and nano-scales, the adjustment of biomechanical properties through structural alignment and chemical components, and the control of the biodegradability of the scaffold and its by-products are discussed.

TL;DR: In vivo results show that release of Ag+ and Zn2+ stimulates the immune function to produce a large number of white blood cells and neutrophils (2-4 times more than the control), thereby producing the synergistic antibacterial effects and accelerated wound healing.

TL;DR: A red‐phosphorus–IR780–arginine–glycine–aspartic‐acid–cysteine coated on titanium bone implants can improve the cell adhesion, proliferation, and osteogenic differentiation and reaches an antibacterial efficiency of 96.2% in vivo with 10 min of irradiation at 50 °C.

TL;DR: An exogenous antibacterial agent consisting of zinc-doped Prussian blue (ZnPB) that kills methicillin-resistant Staphylococcus aureus in vitro and in a rat model of cutaneous wound infection is developed.

TL;DR: In vitro and in vivo results reveal that BPs in this BP-based hydrogel can promote the formation of the fibrinogen at the early stages during the tissue reconstruction process for accelerated incrustation, and has great potential as a safe multimodal therapeutic system for active wound healing and sterilization.