Designment of polydopamine/bacterial cellulose incorporating copper (II) sulfate as an antibacterial wound dressing

Improving antibacterial performance is one of the prerequisites for the clinical application of bacterial cellulose (BC)-based dressings. In this study, a novel copper (Cu) ion loaded BC-based antibacterial wound dressing was prepared via codeposition of polydopamine (PDA) and copper ion. The scanning electron microscope (SEM) results showed that the copper ion/PDA coating was more uniform than the PDA coating, and the 3D nanopore structure of BC was retained in Cu2+ @PBC. Cu ions were immobilized by forming a chelate with PDA. The thermal stability and mechanical properties of the Cu2+ @PBC dressing decreased with the addition of copper ions. Cu2+ @PBC-2 film with a certain amount of copper sulfate used (10 nM) exhibited favorable antibacterial properties against both S. aureus and E. eoli without obvious cytotoxicity. The results of the in vivo study also demonstrated that the CCu2+. @PBC-2 film can eliminate S. aureus infections and inflammatory response, promote collagen deposition, capillary angiogenesis, hair follicle growth and wound healing. These results suggest that the Cu2+. @PBC-2 film has prospective application as a wound dressing.

Automated summary

A copper ion-loaded cellulose dressing with excellent antibacterial performance was successfully prepared through the co-deposition of polydopamine and copper ions. The dressing retains the original nanopore structure of cellulose and promotes wound healing.