Infectious microenvironment responsive bimetallic sulfide combined with NIR irradiation to enhance photodynamic gas synergistic therapy of maxillofacial trauma

Maxillofacial trauma is an infection and oxidative stress-induced damage to maxillofacial area related cells. Increasing evidences have suggested that therapeutic strategies with controllable anti-infective and anti-inflammatory capabilities hold great potentials in the clinical treatment of maxillofacial trauma. Herein, we reported an infectious microenvironment responsive bimetallic sulfide (FeCuS_x, FCS) combining with near infrared (NIR) irradiation for maxillofacial trauma therapy. In cellular levels, FCS exhibited the most efficient antioxidant and anti-inflammatory, cell migration, and angiogenesis behaviors through down-regulating the inflammatory factor (iNOS) expression level, up-regulating anti-inflammatory factors (Arg-1 and TGF-β) expression level, inducing macrophages M2 polarization (CD86 down-regulation and CD206 up-regulation), and promoting tissue repair factors (CD31) expression level. Besides, it presented the excellent antibacterial ability of Escherichia coli (99.74%) and MRSA (99.78%) for FCS + NIR. Significantly, it also confirmed that FCS + NIR presented the excellent functions of inhibiting wound infections, decreasing wound inflammation, as well as promoting trauma tissue repairing. Altogether, it had developed the strategy of FCS + NIR for the synergistic enhancement of infectious maxillofacial trauma healing, could also serve as a promising therapeutic strategy for the treatment of infectious diseases.

Graphical abstract