Evaluation of Pancreatic Histopathological Changes Due to Administration of Mentha spicata Extract in Alloxan-Induced Diabetic
2018
Sahvieh, Sonia | Javaheri Vayeghan, Abbas | Ahmadi Hamedani, Mahmoud
BACKGROUND: Due to the globally increasing diabetes and widespread side effects after using the synthetic drugs, a lot of researches are being undertaken in order to replace chemicals with natural substances with similar biological effects. OBJECTIVES: The aim of this study was to compare pancreatic histopathological changes between Glibenclamide and Mentha spicata extract consumed in diabetic Wistar rats. METHODS: 24 male Wistar rats were randomly divided to four groups (six rats per group) including healthy group (negative control), diabetics (positive control). Group 2 included diabetic rats treated with 2mg/kg Glibenclamide (standard anti-diabetic drug), Group 3 were diabetic rats treated with 300mg/kg aqueous extract of menthe spicata. Group 4 included positive control. Diabetes was induced through intraperitoneal injection (150mg/kg) in groups 2,3 and 4. All treatments were carried out daily by gavage for 21 days. After the treatment period, and euthanizing rats, pancreatic tissues were fixed and prepared for staining with H & E and Gomori methods to differentiate α and β cells and other changes of Langerhans islets. Average area of islets and (total islets area/total pancreas) was calculated. Total cells average count per mm2 of islets and beta cells density were examined in random selected microscopic fields. Changes in shape of cells and their nucleis were considered. Data were analyzed by ANOVA and Tukey test in SPSS software. RESULTS: The results showed that alloxan can induce severe damage on beta cells and Glibenclamide and aqueous extracts of Mentha spicata can be taken to prevent further destruction of these cells. Statistical results showed that although Glibenclamide has effects but there is no significant difference between aqueous extracts of Mentha spicata and Glibenclamide in their effects on the pancreas islets of diabetic rats. CONCLUSIONS: Because the aqueous extract of Mentha spicata has strong antioxidant properties, It may prevent the damaging effects of free radicals on the beta cells of Langerhans islets. As a result, due to side effects of chemical drugs, compared to the use of this extract, it can be more useful and prevent further destruction of pancreatic beta cells rather than chemical drugs used in diabetics.
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