Silk Fibroin Microparticle/Carboxymethyl Cellulose Composite Gel for Wound Healing Applications

Silk fibroin has recently gained considerable attention as a promising biomaterial for use in medical and bioengineering technologies due to its biocompatibility and favorable mechanical properties. In this study, composite gel based on silk fibroin microparticles and carboxymethyl cellulose was developed, characterized by a viscous, homogeneous white mass containing uniformly distributed fibroin microparticles ranging from 1 to 20 mu m in size. The gel exhibited a kinematic viscosity of 36.5 x 10-6 St, allowing for convenient application to wounds using a syringe or spatula while preventing uncontrolled spreading. The cytocompatibility of the gel was confirmed using the methylthiazol tetrazolium (MTT) assay, which showed no cytotoxic effects on 3T3 fibroblast cells. Furthermore, the gel remained stable for over one year when stored at 10 degrees C, in contrast to conventional fibroin solutions, which typically lose stability within a month under similar conditions. In a full-thickness skin wound model in rats, the application of the gel significantly accelerated skin regeneration, with complete wound closure observed by day 15, compared with 30 days in the control group. Histological analysis confirmed the restoration of all skin layers. These findings demonstrate the high potential of the gel for applications in regenerative medicine and tissue engineering.