Two-Stage Patterned Cell-Based Treatments for Skin Regeneration.

Abstract

During the process of wound healing, avoiding the formation of aligned collagen fibrils and subsequent scarring has become the focus of numerous research efforts. However, the goal of regeneration of native or scar-free skin remains a challenge. The complex and equivocal connection between inflammation and regeneration within the process of healing contributes to unsatisfactory treatment outcomes. Inspired by the scarless repair observed in fetal wound healing, we create a two-stage treatment combining the hydrocolloid dressing to attenuate the immune response in the initial three days, and the biomimetic cell-laden hydrogel to improve skin regeneration, which meet the specific needs of each stage in the healing process. To further accelerate the skin regeneration, the patterned cell-laden hydrogels were fabricated by photo-mask based photolithography technique. The efficacy and possible mechanisms of skin regeneration using this patterned cell-laden hydrogel therapy was investigated. Results show that these two-stage patterned cell-laden treatments were able to promote vascular network formation, accelerate wound closure, decrease scar formation, increase tissue regeneration and restore structure and mechanical properties of the skin in a full-thickness murine wound model. These data suggest that our patterned cell-based two-stage treatments can be used as a promising therapeutic option for wound healing by accelerating skin tissue regeneration.