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Antidiabetic plants

Tam TW, Liu R, Amason IT et al (2009) Actions of ethnobotanicaUy selected Cree antidiabetic plants on human cytochrome P450 isoforms and flavin-containing monooxygenase 3. 1 Ethnopharmacol 126 119-126... [Pg.65]

Maries RJ, Farnsworth NR. (1995) Antidiabetic plants and their active constituents. Phytomedicine 2 133-189. [Pg.582]

Studies on the activity of individual plants of an antidiabetic plant mixture. [Pg.232]

Eugenia multiflora (Myrtaceae) [leaf] antidiabetic plant... [Pg.527]

Anti-inflammatory, antioxidant and antidiabetic plant compounds... [Pg.595]

Noreen, W., A. Wadood, H.K. Hidayat, and S.A. Wahid. 1988. Effect of Eriobotrya japonica on blood glucose levels of normal and alloxan-diabetic rabbits. Planta Med. 54(3) 196-199. Roman-Ramos, R., J.L. Flores-Saenz, G. Partida-Hernandez, A. Lara-Lemus, and F. Alarcon-Aguilar. 1991. Experimental study of the hypoglycemic effect of some antidiabetic plants. Arch. Invest. Med. 22(l) 87-93. [Pg.342]

Gray, A.M., and P.R. Flatt. 1999. Insulin-secreting activity of the traditional antidiabetic plant Viscum album (mistletoe). /. Endocrinol. 160(3) 409. [Pg.930]

Al-Awadi E, Shoukry M (1988) The hpid lowering effect of an antidiabetic plant extract. Acta Diabetol 25(1) 1-5 Aldashev AA (1979) Aconitum pharmacology, toxicology and uses. Dim, Erunze (in Russian)... [Pg.302]

Simmonds MS J, Howes M-JR (2005) Plants used in the treatment of diabetes. In Soumya-nath A (ed) Traditional medicines for Modern Times. Antidiabetic plants. Taylor Francis Group, Abingdon, pp 19-82... [Pg.172]

The aim of this review is to provide the available data about phytocompounds targeting insulin resistance associated with diabetes. The data infor-mation were collected from the available literature at various databases, including PubMed, Science Direct, and Scopus till September 2013. Key search words included medicinal plants, phytochemicals, insulin resistance, antidiabetic plants, glucose uptake, and insulin sensitivity. Moreover, the antidiabetic activity of these phytocompounds, their chemical stmcture, the plant origin, and the mechanisms of action are discussed in the present review. [Pg.351]

Harbilas D, Martineau LC, Harris CS, et al (2009) Evaluation of the antidiabetic potential of selected medicinal plant extracts from the Canadian boreal forest used to treat symptoms of diabetes Part II. Can J Physiol Pharmacol 87 479-492... [Pg.107]

A number of review articles on the uses of various plants (different parts of plant materials, crude extracts, herbal formulations etc.) as antidiabetic agents have been published time to time. Naturally occurring chemo-types of varying structural skeletons have also been reported to possess antidiabetic properties the purpose of this resume is to represent promising antidiabetic chemical entities of varying structural skeletons isolated from natural sources. [Pg.523]

With the advent of modern techniques, instrumentation and automation in isolation and structural characterization, numerous antidiabetic compounds have been isolated, purified and identified from different natural sources, especially medicinal plants. This part summarizes promising natural chemical entities with diverse structures reported for their therapeutic activities against diabetes. These compounds are broadly categorized into alkaloids, terpenoids, flavonoids, and phenolics, including compounds from other groups. [Pg.523]

Terpenoid compounds of varying structural skeletons have already been reported to possess significant antidiabetic potential. Promising terpenoidal constituents obtained from different natural sources, particularly medicinal plants are summarized herein. Costunohde (52), a terpenoid constituent of Costus speciosus (Koen ex.Retz.)Sm. (family Zingiberaceae), was found to reduce plasma glucose in a dose-dependent manner (p < 0.05). In... [Pg.536]

Alarcon-Aguilara FJ, Roman-Ramos R, Perez-Gutierrez S, Aguilar-Contreras A, Contreras-Weber CC, Flores-Saenz JL. (1998) Study of the anti-hyperglycemic effect of plants used as antidiabetics. J Ethnopharm 61 101-110. [Pg.582]

Grover JK, Yadav S, Vats V. (2002) Medicinal plants of India with antidiabetic pontential. J Ethnopharm 81 81-100. [Pg.582]

Jung M, Park M, Lee HC, Kang Y-H, Kang ES, Kim SK. (2006) Antidiabetic agents from medicinal plants. CurrMed Chem 13 1203-1218. [Pg.583]

Daisy P, Jasmine R, Ignacimuthu S, Murugan E. (2009) A novel Steroid from Elephantopus scaber L., an ethnomedicinal plant with antidiabetic activity. Phytomedicine 16 252-257. [Pg.588]

Aslam, M., Jafri, M.A., Javed, K. and Singh, S. (2003) Evaluation of antidiabetic drugs from plant sources. In Singh, S., Govil, J.N. and Singh, V.K. (eds) Recent Progress in Medicinal Plants. Volume 2, Phytochemistry and Pharmacology. Studium Press, Houston, Texas, pp. 105. [Pg.224]

Table 14.6 Plant compounds with hypoglycaemic, antidiabetic and/or insulinotropic effects ... Table 14.6 Plant compounds with hypoglycaemic, antidiabetic and/or insulinotropic effects ...
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See also in sourсe #XX -- [ Pg.352 ]



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