Oxygenated-bacterial-cellulose nanofibers with hydrogel, antimicrobial, and controlled oxygen release properties for rapid wound healing

The most effective approach for wound healing improvement is entrapping and controlling the oxygen in a biocompatible polymer matrix through introducing hydrogen peroxide. In the research, the bacterial cellulose (BC) layers were oxygenated as a safe and excellent hydrogel to accelerate the wound healing process. Indeed, the hydrogel-containing hydrogen peroxide was obtained using the treatment of dry BC with 3% hydrogen peroxide for 5 h. The morphology, thermal behavior, crystalline and chemical structures, mechanical properties, water vapor permeability, degree of porosity, oxygen release, water holding capacity, and drying time of the treated layers were investigated. Furthermore, the calculated porosity showed about seven times more pore area. The dissolved oxygen results indicated the well-trapped oxygen in BC with a prolonged-release time of 20 days. Moreover, the 100% antibacterial and antifungal activities and excellent wound healing properties without cytotoxic effects specified the ability of BC to trap and release oxygen for efficient wound healing. Hence, the study introduces a functionalized naturally driven hydrogel layer with oxygen delivery, safe antimicrobial properties, and prolonged drying time.

Automated summary

The study introduced a functionalized naturally driven hydrogel layer with oxygen delivery, safe antimicrobial properties, and prolonged drying time. The treated layers showed increased porosity and longer release time of oxygen, along with antibacterial, antifungal, and excellent wound healing properties. This approach is effective for efficient wound healing.