Autologous and Allogeneic Skin Cell Grafts in the Treatment of Severely Burned Patients: Retrospective Clinical Study.

BACKGROUND: Transplantation of skin cells (keratinocytes and fibroblasts) cultured in vitro is a method of choice for the treatment of severe and extensive burns in patients with a deficit of donor sites for free split-thickness skin grafts, and when the grave medical condition of the patient excludes the possibility of an operation under general anesthetic. Appropriate amounts of keratinocytes and/or fibroblasts cultured in vitro are grafted as a suspension in platelet-leukocyte-rich gel directly on the prepared acceptor site. Approximately 3 weeks are needed for autologous cell culture to grow. Allogeneic cells are obtained from patients who died before their own autologous cell transplantation. Therefore allogeneic cells are considered as ready to use product. The aim of the study was to evaluate the efficiency of in vitro cultured autologous/allogeneic skin cell grafts in the treatment of burns. MATERIALS AND METHODS: In this study a group of 68 patients hospitalized in the Dr Stanislaw Sakiel Centre for Burn Treatment in Siemianowice Slaskie and treated with in vitro cultured skin cells suspended in platelet-leukocyte-rich gel were analyzed. RESULTS: Autologous/allogeneic keratinocytes and fibroblasts transplantation hastens wound closure. CONCLUSION: A major factor in burn treatment is early application of skin cells, so allogeneic cells are more appropriate, because these cells are an on-shelf product. It is especially important in groups of patients with third-degree burn greater than 40%. Allogeneic cells application does not increase hospitalization length in comparison to autologous cells, meaning usage of allogeneic cells in burns treatment is as efficient as autologous cells.

Infections in the tissue material and their impact on the loss of transplants in the Laboratory of in vitro Cell and Tissue Culture with Tissue Bank in the years 2011-2015.

Radiation sterilization eliminates microbiological infections but causes the degradation of the cell factor. The negative result of microbiological examination for tissue transplants is one of the conditions for approval for distribution in patients. The study attempts to verify impact of the presence of microbes onto material for transplant loss. In the 2011-2015 period, we analyzed 293 donors of skin and amnion. Microbiological sampling was performed. The total of 21 strains of bacteria, molds and fungi was identified in collected tissue. The widest spectrum of strains was found in skin (17), followed by amnia (8). The total number of positive findings was 147 and was again highest in skin (129), while the number of positive findings in amnia was 18 only. The general percentage of fungal infections was very low. The presence of fungal strains was only observed in allogeneic skin (2%). Large number of microorganisms isolated from the skin before sterilization was observed, so it seems impossible to use allogeneic intravital skin. However, the intravital application of allogeneic amnion obtained from cesarean section remains to be considered.