BACKGROUND: Flufenamic acid is a member of the fenamates and is used as an analgesic and NSAID drug. According to the ability of this drug on blocking connexin and preventing leakage of substances such as ATP from cells, it seems to be beneficial in healing diabetic wounds. OBJECTIVES: Evaluation of the effects of topical flufenamic acid as a connexin-channel blocker on skin wound healing in alloxan-induced diabetic rats. METHODS: In this study diabetics was induced in 40 male rats by IP injection of 150mg/kg of alloxan and they were divided to 4 groups. After anesthesia, 2×2 cm incision was made on the back of the rats and the skin was separated completely. Three groups were treated by 2, 5 and 10 percent concentration of flufenamic acid ointment separately, and one group was treated by Vaseline and ucerine ointment as control. Bandage and ointment were changed daily and the procedure was carried out for 21 days. The wound surface was measured on odd days. Half of the rats of each group on day five and half of them on day 21 were euthanized to get pathologic slides. RESULTS: Process of healing, fibroblast concentration, epithelialization, angiogenesis, collagen formation and wound closure in 2 percent group were better than other groups and in control, 5 and 10 percent groups had a decreasing trend respectively and had a significant difference. In the last two groups, the healing process was disrupted. CONCLUSIONS: The 2 percent concentration of drug not only did not show potent anti-inflammatory effects, but also improved the process of healing by blocking the connexin 43 and inhibition of ATP release, while in the concentration of 5 and 10 percent, anti-inflammatory effects of the drug predominated and delayed the healing process.

BACKGROUND: Vanadium and zinc are identified as low-concentration elements in the body of living organisms with a wide range of activities. Their insulin-like activity, through regulating the metabolism of carbohydrates, lipids, and eliminating the secondary symptoms of the disease, clearly demonstrates the ability of these elements to improve diabetes.OBJECTIVES: The present study aimed to evaluate the effect of vanadium-zinc complex on the structural, functional, and oxidative stress changes in liver tissue in adult diabetic male rats.METHODS: Herein, we recruited 40 adult male rats with the same weight range. They were randomly divided into four groups of 10, namely control, diabetic, healthy mice receiving vanadium-zinc complex, diabetic mice receiving vanadium-zinc complex) and received this combination at the rate of 10 mg / kg once a day for 60 days by oral gavage. At the end of the course, following blood sampling, part of the liver tissue was removed from the body to measure oxidative stress and the rest for stereological and histological studies. The serum isolated from the animals was also used to measure liver tissue functional enzymes (aspartate aminotransferase, alkaline phosphatase, alanine aminotransferase).RESULTS: The results of this research revealed that vanadium-zinc complex has no side effects on liver tissue in most case, but can greatly prevent structural damage to liver tissue by lowering blood glucose levels in diabetic rats and improving oxidative stress.CONCLUSIONS: Vanadium-zinc complex can be utilized with a certain mechanism in order to control blood sugar and inhibit oxidative stress. It could be regarded as an appropriate approach to preventing liver damage following chronic hyperglycemia in diabetic patients.