The possibility of microbial cellulose for dressing and scaffold materials.

In recent years, natural polymers such as cellulose, alginate and chitosan have been used worldwide as biomedical materials and devices, as they offer more advantages over synthetic polymers. The aim of this study was to clarify the usefulness of microbial cellulose (MC) for use as a dressing and scaffold material. For evaluating the biodegradability and toxicity of MC, we divided the rats (n = 12) into two groups (the implanted group and the non-implanted group). In the implanted group, we implanted the film type of MC in the backs of six rats. In the non-implanted group, however, we did not implant the film type of MC in the backs of the six rats. Four weeks later, we compared two groups by the gross, histological and biochemical characteristics by using blood and tissue samples. To evaluate the wound healing effects of MC, three full-thickness skin defects were made on the backs of each rat (n = 20). Three wounds on the backs of the same rats were treated with other dressing materials, namely, Vaseline gauze (group Con), Algisite M(®) (group Alg) and MC (group MC). We analysed the gross, histological and biochemical characteristics by western blotting. MC was found to be biodegradable and non-toxic. On day 3, the MC film was visible under the subcutaneous tissue; however, after 4 weeks, no remnants of the film were visible under the subcutaneous tissue. Furthermore, there was no evidence of MC-induced toxicity. Moreover, group MC showed more rapid wound healing compared with group Con. On day 14 after skin excision, group MC showed greater decrease in wound size compared with group Con (33% versus 7·2%). The wound healing effects were also substantiated by the histological findings (greater reduction in inflammation and rapid collagen deposition as well as neovascularisation) and western blotting (decreased expression of vascular endothelial growth factor and transforming growth factor-β1 in group MC on day 14 after skin excision, unlike group Con). This study showed that, in addition to having wound healing effects, MC is biodegradable and non-toxic and can, therefore, be used as a dressing and scaffold material.