Objective To review the latest research progress of full-thickness tissue engineered skin (FTTES), to thoroughly understand its current state of research and appl ication so as to lay a sol id foundation for developing new type FTTES and improving the qual ity of skin substitutes. Methods Domestical and international l iterature concerning FTTES in recent years was extensively reviewed and comprehensively analyzed. Results Some progress of FTTES had made in seedcells, scaffold materials and construction, and some therapeutic efficacy had also been achieved in cl inical appl ication. ButFTTES grafting successful rate was lower, and it had no complete skin structure and had not reached the requirements of cl inicalappl ication. Conclusion FTTES is an ideal skin substitute and has great development prospects. However, in seed cells, scaffold materials, construction and appl ications of FTTES, further studied is still needed.
Objective To summarize the research progress of biological characteristics and advantages of Wharton’s jelly-mesenchymal stem cells (WJ-MSCs). Methods The related l iterature on the biological characteristics of WJ-MSCs,umbil ical cord blood MSCs (UBMSCs) and bone marrow MSCs (BMSCs) was extensively reviewed and analyzed. Results A large number of MSCs which are able to self-repl icate, self-renew and have high prol iferation and multipotent differentiation can be isolated from the Wharton’s jelly of umbil ical cord. WJ-MSCs have many advantages in isolation time, isolation efficience, expansion time, passage capacity, expansion capacity when compared with UBMSCs and BMSCs. Conclusion WJ- MSCs have numerous advantages of convenient and abundant sources, relatively pure, non-ethical issues, and so on, which can be used for cell transplant therapy, gene therapy, and the ideal seed cells of building tissue engineered organ, so they provide new ideas for tissue regeneration repair and reconstruction.
Objective To prepare and study the biocompatibil ity of selectively decellular xenoskin which has the character of the lower antigen, continuous epidermis, and the dermal matrix without any cellular components. Methods The porcine skin was treated with glutaraldehyde solution, trypsin, and detergent solution TritonX-100 to prepare the selectivelydecellular xenoskin. The cytotoxicity was tested according to GB/T16886.5-2003 biological evaluation of medical devices for in vitro cytotoxicity, and the levels of cytotoxicity were evaluated with the United States Pharmacopeia. Subdermal implantation was tested according to GB/T16886.6-1997 biological evaluation of medical devices for local effects after implantation. Seventytwo mature Wistar rats were randomly assigned to groups A, B, and C (n=24). Three kinds of materials were implanted into subcutaneous of rats back. Selectively decellular xenoskin was transplanted into group A, fresh porcine skin was transplanted into group B, and allogeneic skin was transplanted into group C. The samples were collected to make the observation of gross and histology after 1, 2, 4, 8, 12, and 16 weeks. Results The cytotoxicity was proved to be first grade by biocompatibil ity test. The gross and histological observation of subdermal implantation: after implantation, the most severe inflammatory reactions were seen in group B which dispersion was very slow. Inflammatory reactions in groups A and C alleviated gradually. In groups A and C, there was an increased collagen fiber density and angiogenesis at late stage; the transplanted skin was gradually degraded and absorbed. In group B, no obvious degradation and absorption were observed. Conclusion Selectively decellular xenoskin, prepared with glutaraldehyde solution, trypsin, and detergent solution, possesses characteristics of integral skin structure andexcellent biocompatibil ity, so it can be used as a new type substitute to repair the burn wound.