[3]
Day, C.; Bailey, C.J. Traditional Herbal Medicines for Mod-ern Times, Antidiabetic plants; Taylor & Francis Group, 2006.
[4]
Sieniawska, E.; Baj, T. Pharmacognosy Fundamentals Applications
and Strategies;, Simone Badal, McCreath.;
Rupika, Delgoda., Eds.; Elsevier Inc. 2017, 687-716.
[7]
Austin, M.M. Importance of self care behaviors in diabetes management: business briefing; US Endocr Rev, 2005, pp. 16-21.
[8]
Rekha, S.; Swapna, C. Rssdi Textbook of Diabetes Mellitus, 2014.
[10]
David, L. Horwitz1, D.; Klonoff, C. Textbook of diabetes,
5th ed.; Holt, R.I.G.; Cockram, C.S.; Flyvbjerg, A.; Goldstein,
B.J., Eds.; Wiley-Blackwell: Chichester, West Sussex,
UK ; Hoboken, NJ. , , 2016; pp. 108-235.
[16]
Kossel, A. On the chemical composition of the cell. Arch. Physiol., 1891, 14, 181-186.
[19]
Francisco, V.; Costa, G.; Neves, B.M.; Cruz, M.T.; Batista, M.T. Polyphenols in human health and disease; Academic Press, 2014.
[20]
Ramawat, K.G.; Me’rillon, J-M. Natural products, phytochemistry: botany, and metabolism of alkaloids, phenolics and terpens; Springer Heidelberg: Berlin, 2013.
[22]
Shahat, A.A.; Marzouk, M.S. Medicinal plants research in Africa, Pharmacology and Chemistry, 1st ed; Elsevier, 2013.
[28]
Leung, A.Y.; Foster, S. Encyclopedia of common natural ingredients used in food, drugs, and cosmetics, 2nd ed; John Wiley & Sons Inc, 1996.
[30]
Rudy, B.; Richard, D. Handbook of Diebetes, 4th ed; Wiley-Blackwell, 2010.
[32]
Ravichandiran, V.; Nirmala, S.; Nazeer, K.A. Protective effect of tannins from Ficus racemosa in hypercholesterole-mia and diabetes induced vascular tissue damage in rats. Asian Pac. J. Trop. Med., 2012, 367-373.
[46]
Mukherjeel, S.; Mitral, A.; Dey, S.; Thakur, G. In:Alphaamylase
Activity of Tannin Isolated from Terminalia chebula,Proceedings of 2010 International Conference on Systems in Medicine and Biology, liT Kharagpur; IndiaDecember 16-18, 2010443-445.
[48]
Tong, W.; Wang, H.; Waisundara, V.Y.; Huang, D. Inhibiting enzymatic starch digestion by hydrolysable tannins isolated from Eugenia jambolana. Food Sci. Technol. (Campinas), 2014, 59, 389-395.
[60]
Subramoniam, A. Antidiabetes mellitus plants, active principles,
mechanisms of action and sustainable utilization,
Boca Raton CRC Press, Taylor & Francis Group: , 2017.
[61]
Lebowitz, H.E. Alpha-glucosidase inhibitors as agents in the treatment of diabetes. Diabetes Rev., 1998, 6, 132-145.
[62]
Garrett, R.H.; Grisham, C.M. Biochemistry, 5th ed; Brooks Cole, 2013.
[70]
Maqsood, A.; Fatima, Z.; Tanveer, S.; Zabta, M. Antidiabetic and hypolipidemic effects of aqueous methanolic extract of Acacia Nilotica pods in alloxan-induced diabetic rabbits. Scand Lab Anim Sci, 2008, 35, 29-34.
[77]
Sancheti, S.; Sancheti, S.; Bafna, M.; Lee, S.H.; Seo, S.Y. Persimmon leaf (Diospyros kaki), a potent α-glucosidase inhibitor and antioxidant: Alleviation of postprandial hyperglycemia in normal and diabetic rats. J. Med. Plants Res., 2010, 5, 1652-1658.
[80]
Shetti, A.A.; Sanakal, R.D.; Kaliwal, B.B. Antidiabetic effect of ethanolic leaf extract of Phyllanthus amarus in alloxan induced diabetic mice. Asian. J. Plant Sci. Res., 2012, 2(1), 11-15.
[87]
Saini, R.; Patil, S.M. Antidiabetic activity of roots of Quercus infectoria Olivier in alloxan induced-diabetic rats. IJPSR, 2001, 3, 1318-1321.
[89]
Li-hua, C.; Zi-hong, P.; Yun-li, C.; Qing-yi, M.A. A Screen of α-Glucosidase inhibitors from Sanguisorba Officinalis. Food Res. Develop., 2013, 27, 22-30.
[92]
Kumar, A.; Ilavarasan, R.; Jayachandran, T.; Deecaraman, M.; Aravindan, P.; Padmanabhan, N.; Krishan, M.V. Anti-diabetic activity of Syzygium cumini and its isolated compound against streptozotocin-induced diabetic rats. J. Med. Plants Res., 2008, 2, 246-249.
[97]
Abdul Hoque, M.; Nyeem, M.; Mannan, M.; Tanzim Ullah, M.; Nuruzzaman, M. Evidence based antidiabetic selected in-digenous medicinal plants. Intl. J. Home Sci., 2017, 3(2), 305-309.