Description

Timely wound repair has been a great challenge in the treatment of patients with large deep burns. The current conventional approach is to use autologous skin grafts, such as micro-skin grafts, stamp skin grafts, and mesh skin grafts. Since there is very little normal skin left after large deep burns and the expansion of autologous skin grafts is limited (3-15 times), repeated skin grafting procedures are needed to repair the wound gradually, resulting in a long course of disease, scar growth and contracture, which seriously affects the quality of survival and even endangers life. Especially for patients with very large deep burns, there is an extreme shortage of normal skin sources, so they face the dilemma of having no rice to cook and unable to repair their wounds.

Based on the principle and technology of skin tissue engineering, autologous epidermal cell transplantation can provide sufficient skin source for patients with large deep burns by cutting very small pieces of autologous skin (about 2-10 cm2) and expanding them by 1000-5000 times after 2-3 weeks of in vitro culture. Autologous epidermal cell membranes combined with a large proportion of expanded autologous dermis (e.g. stamp skin, reticular skin) can significantly shorten the interstitial fusion time, improve the survival rate of autologous dermis transplants, and reduce scar growth after wound healing; autologous epidermal cell membranes combined with allogeneic dermis transplants can repair third-degree burn wounds, thus providing a large number of dermis sources for patients with lack of dermis sources, and has become an important treatment tool for saving the lives of patients with large deep burns. It has become an important treatment tool to save the lives of patients with large deep burns.