Background: ReGeneraTing Agents (RGTAs) are biodegradable polymers engineered to mimic heparan-sulfate in the extracellular matrix of damaged tissue. RGTAs improve tissue healing in several animal models by stabilizing and protecting heparin-binding growth factors and matrix proteins. RGTA restores the normal matrix architecture and supports tissue regeneration. In this study, the authors evaluated the effects of RGTA on epidermal repair and dermal remodeling in a rat burn model.
Methods: Deep second-degree burns were induced in 156 hairless rats, of which half (n = 78) received topical and intramuscular RGTA immediately after the burn followed by intramuscular RGTA weekly for 1 month. The controls (n = 78) received saline according to the same protocol. Rats were killed starting on each day of the first week and on days 14, 28, 60, 120, 240, and 365. The burns were evaluated by photography, histology, and immunohistochemistry.
Results: Coagulation necrosis involved the entire epidermis and superficial adnexa. Compared with the controls, speed of epidermal repair, as assessed between days 3 and 7 based on cell-layer number and anticytokeratin-14 staining, was faster in the RGTA group; and the zone of stasis, as assessed based on secondary vascular lesions in the dermis, was smaller. On day 7, reepithelialization was complete in both groups. On days 14 and 28, the remodeled dermal zone was smaller in the RGTA group.
Conclusion: RGTA accelerated epidermal repair and protected the dermis from secondary effects of heat as quantified by zone-of-stasis size and extent of dermal remodeling.