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References
|
Akah PA, Alemji JA, Salawu OA, Okoye TC, Offiah NV (2009). Effects of Vernonia amygdalina on Biochemical and Hematological parameters in Diabetic rats. Asian J. Med. Sci. 1(3):108-113. |
|
|
Akpanabiatu MI, Umoh IB, Udosen EO, Udo AE, Edet EE (2005). Rat Serum Electrolytes, Lipid Profile and Cardiovascular Activity on Nauclea Latifolia Leaf Extract Administration. Indian J. Clin. Biochem. 20(2):29-34. |
|
|
American Diabetes (2006). Standards of Medical care in Diabetes-2006. Diabetes Care 29(1):42-54. |
|
|
Asanga EE, Ebong PE, Eseyin OA, Udoh IE, Eyo RA, Grace E (2013). Effect of ethanol extract and fractions of Nauclea latifolium leaves on some biochemical parameters of alloxan – induced diabetic rats. Int. J. Res. Rev. Pharm. Appl. Sci. 3(1):147-154. |
|
|
Bopanna KN, Kannn J, Susma G, Balaraman R, Rathod SP (1997). Antidiabetic and antihyperlipaemic effects of neem seed kernel powder on alloxan diabetic rabbits. Indian J. Pharmacol. 29(3):162-167. |
|
|
Briscoe VJ (2006). Hypoglycemoa in type I and type 2 diabetes, Physiology, Pathophysiology & Management. Clin. Diabetes 24(3):115. |
|
|
Bussmann RW, Sharon D (2006). Traditional plant use in Northern Peru: Tracking two thousand years of health culture. J. Ethnobiol. Ethnomed. 2:47. |
|
|
Canadian Diabetes Association (2008). Clinical practice guidelines for the prevention and management of diabetes in Canada. Can. J. Diabetes 32(suppl 1):S1-S201. |
|
|
De-Fronzo RA, Bonadonna RC, Ferrannini (1997) International Text Book of Diabetes Mellitus. 2 England: Cholhester, John Wiley. Pathogenensis of NIDDM. pp. 635-712. |
|
|
Dhandapani S, Ramasamy SV, Rojagopal S, Namasivayam N (2002). Hypolopidemic Effect of Caninum Cyminum L. on Alloxan Induced Diabetic rats. Pharmacol. Res. 46(3):251-255. |
|
|
Donath MY, Ehses JA (2006). Type 1 and type II diabetes, NOD the diabetes we thought it was. Proc. Natl. Acad. Sci. 103:12217-12218. |
|
|
Effiong GS, Essien GE (2014). Evaluation of hypoglycemic and hypolipidemic effect of chloroform and methanolic extract of Nauclea latifolia (rubiaceae) on alloxan- induced diabetic rats. Int. Res. J. Plant Sci. 5(4):53-56. |
|
|
Flegg HM (1973). Measurement of total cholesterol–Phosphotungstic acid method. Ann. Biochem. 10:1350-1356. |
|
|
Friedewald WT, Levy RI, Fredrickson DS (1972). Estimation of the Concentration of low density lipoprotein cholesterol in plasma without use of the preparative ultracentrifuge. Clin. Chem. 18:499-502. |
|
|
Gidado A, Ameh DA, Atawodi SE, Ibrahim S (2008). Hypoglycaemic activity of Nauclea latifolia sm.(rubiaceae) in experimental animals. Afr. J. Tradit. Complement. Altern. Med. 5(2):201-208. |
|
|
Hansotia T, Drucker DJ (2005). GIP and GLP -1 as incretin hormones: lessons from single and double incretin receptor knockout mice. Regul. Pept. 128:125-134. |
|
|
Heber MF, Ferreira SR, Velez LM (2013). Prental Hyperandrogenism and lipid profile during different age stages: an experimental study. Fertil. Steril. 99(2):551-557. |
|
|
Henry NG, Yuan Li Z, Antonia H (2005). Regulation of Plasma trigylcerides in insulin resistance and diabetes. Arch. Med. Res. 36:232-240. |
|
|
Jarald EE, Joshua SB (2008). Antidiabetic activity of aqueous extract and non-polysaccharide fraction of Cyrodon dactylon pers. Indian J. Exp. Biol. 46:660-7. |
|
|
Katsumata K, Katsumata TO, Katsumata K (1999). Potentiating Effects of Combined Usage of three Sulfonylurea Drugs on the Occurrence of Alloxan Induced Diabetes in rats. Horm. Metab. Res.25:125-126. |
|
|
Kavishankar N, Lakshmidevi S, Mahadeva MH (2011). Diabetes and Medicinal plants – a review. Int. S. Pharm Biomed Sci. 2(3):65-80. |
|
|
Khan R, Buse J, Ferrannini F (2005). The metabolic syndrome: time for a critical appraisal. Joint Statement from the Americacan Diabetes Association and the European Association for the study of Diabetes. Diabetes Care 28(9):2289-2304. |
|
|
Khanna AK, Ramesh C, Kapoor NK (1996). Terminalia ayurvedic cardiotonic regulates lipid metabolism in hyperlipidemic rats. Photother. Res. 10:663-669. |
|
|
Martha SN (2009). Pancreatic Hormones & Antidiabetic Drugs: In Bertran GK, Sysan BM, Anthony JT. Basic and Clinical Pharmacology. 11th ed. McGraw Hill. pp. 727-748. |
|
|
Nelson DL, Cox MM (2008). Lehnlinger Principles of Biochemistry (3rd ed.). New York: Worth Publishers. pp. 804-841. |
|
|
Nikkila EA (1984). Plasma lipid and Lipoprotein Abnomalities in Diabetes. In Jarret RF (ed), Diabetes and Heart Disease – Amsterdam: Elsevier Science Publishers. pp. 134-167. |
|
|
Nworgu ZAM, Onwukaeme DN, Afolayan AJ, Amaechina F, Ayinde BA. (2008). Preliminary Studies of blood pressure lowering effect of Nauclea latifolia in rats. Afr. J. Pharmacol. 2:37-41. |
|
|
Pepato MT, Mori DM, Baviera AM (2005). Fruit of the Jambolan Free (Eugenia Jambolana) and experimental diabetes. J. Ethnopharmacol. 96:43-48. |
|
|
Siedel J, Schlumberger H, Klose S, Ziegenhorn J, Wahlefeld AW (1981). Improved reagent for the enzymatic determination of serum-cholesterol. J. Clin. Chem. Clin. Biochem. 19(8):838-839. |
|
|
Tripathi J, Kuman R, Vrish DA (2012). Antidiabetic activity of Diplocyclos palmatus Linn. In alloxan – induced diabetic mice. Ind. J. Pharm. Edu. Res. 46(4):352-359. |
|
|
Umar A, Ahmed QU, Muhammad BY, Dogarai BB, Soad SZ (2010). Antihy perglycaemic activity of the leaves of the leaves of Tetracera scandens Linn. Merr (Dilleniacea) in alloxan induced diabetic rats. J. Ethnopharmacol. 131(1):140-145. |
|
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