The JCR:LA‐cp rat: A novel model for impaired wound healing

JCR:LA‐cp/cp obese rats and their lean controls were evaluated as a type 2 diabetic wound healing model and the healing quality was characterized. This model of insulin resistance has been used extensively to study atherosclerosis but has not previously been used to study wound healing. Six circular excisional wounds were made on the dorsum of each rat and followed to day 21.Tracings of the wounds were made and used to assess the rate of wound closure. Planimetry showed a significantly diminished contraction of wounds in obese rats, but no significant difference in reepithelialization was observed. Collagen content was determined from the hydroxyproline content in wounded and unwounded skin. There were significantly lower levels of hydroxyproline in the wounds of obese compared to lean animals at day 21. Histology showed adipose tissue in place of dermal tissue in the JCR:LA‐cp/cp rat in both unwounded tissue and in the wound at day 21. Active transforming growth factor‐β1 (TGF‐β1) was measured in the serum using the plasminogen activator inhibitor‐1/luciferase assay and serum total TGF‐β was measured using an enzyme‐linked immunosorbent assay. Active TGF‐β was significantly higher in the serum of obese animals compared with lean animals, while total TGF‐β1 was not significantly different between the groups. Both active and total TGF‐β was measured in tissue sections using the plasminogen activator inhibitor‐1/luciferase assay. There was no significant difference in active TGF‐β between genotypes, while obese rats had significantly higher levels of total TGF‐β at day 21. These results indicate a deficiency in wound healing in obese animals characterized by decreased wound contraction, decreased collagen production, and changes in histology. The JCR:LA‐cp rat develops insulin resistance, atherosclerosis and early type 2 diabetes and may be a good model for impairment of wound healing in humans with metabolic syndrome.