Author(s):
Mohini Shelke, Shraddha Parjane, S. D Mankar, S. S. Siddheshwar
Email(s):
sdmankar655@gmail.com
DOI:
10.52711/2349-2988.2021.00023
Address:
Mohini Shelke*, Shraddha Parjane, S. D Mankar, Dr. S. S. Siddheshwar
Pravara Rural College of Pharmacy, Pravaranagar A/P Loni - 413736, Tal - Rahata, Dist - Ahmednagar (M.S).
*Corresponding Author
Published In:
Volume - 13,
Issue - 2,
Year - 2021
ABSTRACT:
Hibiscus sinensis is an annual/Perennial plant belongs to Malvaceae family commonly referred to as "roselle" famous for its medicinal value found world wide and native to West and East Africa, South-East Asia, Northeastern India. Roselle is cultivated in humid and warm climate. The plant consist phytoconstituents like malic, citric, tartaric, allo-hydroxycitric acid also reach in vitamin C, Vitamin A. Roselle is popular for it's therapeutic and nutritional value. Seeds, leaves, fruits and roots are utilized in herbal medicine for hair growth treatment. The Roselle, having various medically important compounds called photochemical, is documented for its nutritional and medicinal properties. Many parts of Roselle including seeds, leaves, fruits and roots are utilized in various foods also as in herbal medicine as a possible non-pharmacological treatment. In the treatment of various medical conditions, including several cardiovascular diseases, helmentic disease and cancer, different extracts from Roselle play an important role. Phytochemical research has reported that flavonoids, tannins, terpenoids, saponins, and alkaloids are the most bioactive compounds responsible for their medicinal effects. Experiments from recent studies have shown that different types of extracts from all Hibiscus. The components of rosa sinensis showed a good range of beneficial effects, such as hypotensive, anti-pyritic, anti-inflammatory, anti-cancer, antioxidant, anti-bacterial, anti-diabetic, wound healing, and abortifacient activities. Hibiscus rosa sinensis has been utilized in many herbal mix and drinks. This review plan to highlight the therapeutic application of Hibiscus rosa sinensis.
Cite this article:
Mohini Shelke, Shraddha Parjane, S. D Mankar, S. S. Siddheshwar. Therapeutic potential of Hibiscusrosa sinensis - A Review. Research Journal of Science and Technology. 2021; 13(2):151-6. doi: 10.52711/2349-2988.2021.00023
Cite(Electronic):
Mohini Shelke, Shraddha Parjane, S. D Mankar, S. S. Siddheshwar. Therapeutic potential of Hibiscusrosa sinensis - A Review. Research Journal of Science and Technology. 2021; 13(2):151-6. doi: 10.52711/2349-2988.2021.00023 Available on: https://rjstonline.com/AbstractView.aspx?PID=2021-13-2-14
REFERENCES:
1. Yadong Qi, Kit L Chin, Fatemah Malekian, et al. Biological Characteristics, Nutritional and Medicinal Value of Roselle, Hibiscus sabdariffa. Southern University and A & M College System; 2005; 225: 771‒2262.
2. Abbas M, Shirin M, Patricia K, et al. The effect of Hibiscus sabdariffaon lipid profile, creatinine, and serum electrolytes: a randomized clinical trial. International scholarly research network. ISRN gastroenterology. 2011; 2011(2011): 1‒4.
3. Vastrad JV, Byadgi SA. Phytochemical screening and antibacterial activity of Hibiscus rosa - sinensis leaf extracts. International Journal of Current Microbiology and Applied Sciences. 2018; 7(3): 3329–3337.
4. Zubairi SI, Jaies NS. Hibiscus rosa sinensis leaves: Analysis of proximate, antioxidant activities and inorganic compound. Malaysian Journal of Analytical Sciences. 2014; 18(2): 260-270.
5. Mak YW, Chuah LO, Ahmad R, Bhat R. Antioxidant and antibacterial activities of Hibiscus (Hibiscus rosa-sinensis L.) and Cassia (Senna bicapsularis L.) flower extracts. Journal of King Saud University -Science. 2013; 25(4): 275–282.
6. Bhakta S, Das SK. A review on Hibiscus rosa sinensis: a rural traditional medicine for contraception. International Journal of Engineering and Information Systems. 2017; 1(9): 77–79.
7. Udo IJ, Ben MG, Etuk CU, Tiomthy AI. Phytochemical, proximate and antibacterial properties of Hibiscus rosa-sinensis L. Leaf. Journal of Medicinal Plants Studies. 2016; 4(5): 193–195.
8. Pekamwar SS, Kalyankar TM, Jadhav AC. Hibiscus rosa-sinensis: a review on ornamental plant. World Journal of Pharmacy and Pharmaceutical Sciences. 2013; 2(6): 4719–4727.
9. Noman A, Aqeel M, Javed MT, Zafar S, Ali Q, Islam W, et al. Histological changes in Hibiscus rosa-sinensis endorse acclimation and phytoremediation of industrially polluted sites. The Journal of Animal& Plant Sciences. 2017; 27(5): 1637–1648.
10. El Sayed ZI, Ateya A-MM, Fekry M. Macro- and micro morphological study of the leaf, stem, flower and root of Hibiscus rosa-sinensis l . Journal of Applied Sciences Research. 2012; 8(1): 34–56.
11. Begum Z, Younus I, Ali SM. Anti-inflammatory, analgesic and anti-pyretic activities of Hibiscus rosa sinensis linn and phytochemicals. World Journal of Pharmacy and Pharmaceutical Sciences. 2015; 4(12): 116–123.
12. Hammad I. Genetic Variation among Hibiscus rosa-sinensis (Malvaceae) of Different Flower Colors Using Issr and Isozymes. Australian Journal of Basic and Applied Sciences. 2009.
13. V. M. Jadhav, R. M. Thorat, V. J. Kadam and N. S. Sathe, Traditional medicinal uses of Hibiscus rosa-sinensis, J. Pharm. Res. 2(8) (2009), 1220-1222.
14. K. R. Kirtikar and B. D. Basu, Indian Medicinal Plants, International Book Distributors, Dehradun, India, 1999, p. 335.
15. S. K. Wong, Y. Y. Lim and E. W. C. Chan, Antioxidant properties of Hibiscus: Species variation, altitudinal change, coastal influence and floral colour change, Journal of Tropical Forest Science (2009), 307-315.
16. D. Garg, A. Shaikh, A. Muley and T. Marar, In-vitro antioxidant activity and phytochemical analysis in extracts of Hibiscus rosa-sinensis stem and leaves, Free Radicals and Antioxidants 2(3) (2012), 41-46.
17. M. P. Prasad, In vitro phytochemical analysis and antioxidant studies of Hibiscus species, Int. J. Pure Appl. Biosci. 2(3) (2014), 83-88.
18. K. Afshari, V. Samavati and S. A. Shahidi, Ultrasonic-assisted extraction and in-vitro antioxidant activity of polysaccharide from Hibiscus leaf, International Journal of Biological Macromolecules 74 (2015), 558-567.
19. Sowers JR, Lester M. Hypertension, hormones, and aging. J Lab Clin Med. 2000; 135: 379---86.
Williams SM. Endophenotypes, heritability, and underly-ing complexity in hypertension. Am J Hypertens. 2010; 23: 819.
20. Johansen CT, Wang J, Lanktree MB, Cao H, McIntyre AD, Ban MR, et al. Excess of rare variants in genes identified by genome-wide association study of hypertriglyceridemia. NatGenet. 2010; 42:684---7.
21. Silverstein RL. Type 2 scavenger receptor CD36 in platelet activation: the role of hyperlipemia and oxidative stress. Clin Lipidol. 2009; 4: 767.
22. Pajukanta P, Lilja HE, Sinsheimer JS, Cantor RM, Lusis AJ, Gentile M, et al. Familial combined hyperlipidemia is associ-ated with upstream transcription factor 1 (USF1). Nat Genet.2004;36:371---6.
23. Plaisier CL, Horvath S, Huertas-Vazquez A, Cruz-BautistaI, Herrera MF, Tusie-Luna T, et al. A systems genetics approach implicates USF1, FADS3, and other causal candi-date genes for familial combined hyperlipidemia. PLoS Genet.2009;5: e1000642.
24. Lahoz C, Mostaza JM. La atherosclerosis comoenfermedadsistémica. Rev Esp Cardiol. 2007;60: 184---95.
25. Stocker R, Keaney Jr JF. Role of oxidative modifications inatherosclerosis. Physiol Rev. 2004;84: 1381---478.
26. Llacuna L, Mach N. Role of antioxidants in the prevention of cancer. Rev Esp Nutr Hum Diet. 2012;16: 16---24.
27. Clarkson PM, Thompson HS. Antioxidants: what role do they play in physical activity and health? Am J Clin Nutr.2000;72:637S---46S.
28. Schroeter H, Heiss C, Balzer J, Kleinbongard P, Keen CL, Hol-lengerg NK, et al. (−)-Epicatechin mediates beneficial effects offlavanol-rich cocoa on vascular function in humans. Proc Natl Acad Sci U S A. 2006; 103:1024---9.
29. Perez-Vizcaino F, Duarte J, Jimenez R, Santos-Buelga C, Osuna A. Antihypertensive effects of the flavonoid quercetin. Pharmacol Rep. 2009; 61:67---75.