Protease and ROS activities influenced by a composite of bacterial cellulose and collagen type I in vitro

The application of bacterial cellulose as a dressing for chronic and burn wounds has been described as beneficial for healing. However, this study and other tests have shown that bacterial cellulose has no significant influence on the biochemical state of chronic wounds. Such wounds persist in the inflammatory phase of the normal healing process and fail to heal. Exudates from non-healing wounds show elevated levels of proteolytic enzymes, cytokines and reactive oxygen species (ROS), leading to a reduced concentration of growth factors and proteinase inhibitors and to a degradation of tissue and severe damage. Thus, the reduction of protein degrading enzymes and proinflammatory interleukins as well as scavenging of ROS appears to be a suitable way to support the healing process. The aim of the present study was to improve the positive features of bacterial cellulose as wound dressing by incorporation of collagen type I into the cellulose pellicle. The research focussed on the possible in situ formation of a composite of bacterial cellulose and collagen type I. This biomaterial is able to reduce the amount of selected proteases and interleukins significantly and possesses a distinct antioxidant capacity as well.