Biocompatible, drug-loaded anti-adhesion barrier using visible-light curable furfuryl gelatin derivative.

Recently, many of studies have been attempted to determine how to decrease adhesion. To effectively prevent adhesion, decrease in unnecessary surgical procedures, prevention of contact with other tissue, and drug treatment for inflammation are required. However, current anti-adhesion materials have disadvantages. To solve current problems, we prepared a biocompatible drug-loaded anti-adhesion barrier using a visible-light curable furfuryl gelatin derivative. We used riboflavin as a photo-initiator in the photo-curing process. The biocompatibility of riboflavin was estimated compared with that of Rose Bengal. In addition, the curing ratio was measured to determine whether riboflavin initiated photo-curing. We also evaluated the curing ratio of riboflavin according to the concentration of F-gelatin and the photo-irradiation time. A drug used to decrease inflammation that causes adhesion should not disappear from the surgical site and should also be released consistently. For this, we observed the release profiles of photo-immobilized ibuprofen with different concentrations of F-gelatin. Because an anti-adhesion barrier should protect from bacterial infection we evaluated the protective ability of a barrier formed by F-gelatin. In conclusion, a drug-loaded anti-adhesion barrier was prepared using a visible-light curable furfuryl gelatin derivative, with riboflavin as a photo-initiator. We expect that this drug-loaded anti-adhesion barrier effectively decrease adhesion formation.