Antihypertensive efficacy of extract of Hedera helix in high salt-induced hypertensive Sprague-Dawley rats
- Author:
Umme SALMA
1
;
Taous KHAN
1
;
Abdul Jabbar SHAH
1
Author Information
- Publication Type:Journal Article
- Keywords: Antihypertensive; Calcium channel blocker; Endothelium-dependent; Hedera helix; Nitric oxide; Vasorelaxant
- From: Asian Pacific Journal of Tropical Medicine 2018;11(8):473-479
- CountryChina
- Language:Chinese
- Abstract: Objective: To explore the antihypertensive effect of extracts from the leaves of Hedera helix (H. helix) on normotensive and hypertensive rats in-vivo followed by vasodilatory studies in-vitro. Methods: The crude methanolic extract was prepared and the activity directed fractionation was carried out. Spectrophotometric analysis of total phenolic and flavonoid content was also done. HPLC analysis was performed for the detection of hederacoside C. In-vivo blood pressure study was carried out in normotensive and high salt-induced hypertensive Sprague-Dawley rats. Isolated aortic tissues from rat and rabbit were used for in-vitro studies. The effects were recorded and analyzed through PowerLab data acquisition system. Results: Crude extract of H. helix (1-30 mg/kg) decreased blood pressure to greater extent in high salt-induced hypertensive rats in-vivo compared to the normotensive [Max. fall (58.59±0.02) mmHg vs. (67.53±3.07) mmHg]. The n-hexane, chloroform, ethyl acetate and aqueous fractions were also checked. These fractions were more effective in hypertensive rats. Aqueous fraction was more potent and n-hexane the least. In isolated rat aortic rings precontracted with phenylephrine, crude extract induced endothelium-dependent effect. The endothelium-dependent component of vasodilatory effect was ablated with L-NAME, and denudation of endothelium. The aqueous fraction was most potent vasodilator. In aortic rings from hypertensive rats, extract and fractions produced partial endothelium-independent effect which was not affected by pretreatment with L-NAME, indicating endothelium dysfunction in the hypertensive rats and suggesting additional vasodilatory mechanisms. In rabbit aorta, the extract and fractions also inhibited phenylephrine and high K