References
- Riaz, S. Diabetes mellitus. Sci Res Essay 2009, 4, 367–373.
- Holman RR, Turner RC. (1991). Oral agents and insulin in the treatment of NIDDM. In: Pickup J, Williams G, eds. Text Book of Diabetes. . Oxford, UK: Blackwell, 467–469.
- Kameswararao, B., Kesavulu, V., Apparao, C. Antihyperglycemic activity of Momordica cymbalaria in alloxan diabetic rats. J Ethanopharmacol 2001, 78, 67–71.
- Kameswararao B, Giri R, Kesavalu MM, Apparao C. (1997). Herbalmedine. In: Bajaj JS, ed. The Management by Indigenous Resources, Diabetes Mellitus in Developing Countries. New Delhi, India: Interprint, 375–377.
- Dickinson, C., Lucas, J. VNR color dictionary of mushrooms. Van Nostrand Reinhold 1982: 9–11.
- Hall IR, Stephenson SL, Buchanan PK, Yun W, Cole ALJ. (2003). Edible and Poisonous Mushrooms of the World. Portland, Oregon: Timber Press.
- Collins, R.A., Ng, T.B. Polysaccharopeptide from Coriolus versicolor has potential for use against human immunodeficiency virus type 1 infection. Life Sci 1997, 60, 383–387.
- Cowley, C., Bennett, F.C. Vinca rosea. Aust J Pharm 1928, 9, 61.
- Pillay, P.P., Nair C.P.M., Santi Kumari, T.N., Lochnera rosea as a potential source of hypotensive and other remedies. Bull Res Inst Univ Kerala 1959, 1, 51–54.
- Nammi, S., Boini, K.M., Lodagala, S.D., Behara, R.B.S. The juice of fresh leaves of Catharanthus roseus Linn. Reduces blood glucose in normal and alloxan diabetic rabbits. BMC Complement Altern Med 2003, 3.
- Lipnick, R.L., Cotruvo, J.A., Hill, R.N., Bruce, R.D., Stitzel, K.A., Walker, A.P., Chu, I., Goddard, M., Segal, L., Springer, J.A. Comparison of the up-and-down, conventional LD50, and fixed-dose acute toxicity procedures. Food Chem Toxicol 1995, 33, 223–231.
- Halim, L.Z., Abdullah, N.R., Afzan, A., Abdul Rashid, B.A., Jantan, I., Ismail, Z. Acute toxicity study of Carica papaya leaf extract in Sprague Dawley rats. J Med Plants Res 2011, 5, 1867–1872.
- Aruna, R.V., Ramesh, B., Kartha, V.N. Effect of betacarotene on protein glycosylation in alloxan induced diabetic rats. Indian J Exp Biol 1999, 37, 399–401.
- Giordano, B.P., Thrash, W., Hollenbaugh, L., Dube, W.P., Hodges, C., Swain, A., Banion, C.R., Klingensmith, G.J. Performance of seven blood glucose testing systems at high altitude. Diabetes Educ 1989, 15, 444–448.
- Pierre, J., Dagenais, R.G., Bergeron, J. Total cholesterol/HDL cholesterol ratio vs LDL cholesterol/HDL cholesterol ratio as indices of ischemic heart disease risk in men. Arch Int Med 1997, 161, 2685–2692.
- Mueller, P.H., Schmuelling, R.M., Liebich, H.M. A fully enzymatic triglyceride determination. J Clin Chem Clin Biochem 1977, 15, 457–464.
- Friedewald, W.T., Levy, R.I., Fredrickson, D.S. Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clin Chem 1972, 18, 499–502.
- Bowers, L.D. Kinetic serum creatinine assays I. The role of various factors in determining specificity. Clin Chem 1980, 26, 551–554.
- Marsh, W.H., Fingerhut, B., Miller, H. Alternative and manual direct methods for the determination of blood urea. J Clin Chem 1965, 11, 624–627.
- Reitman, S., Frankel, S. A colorimetric method for the determination of serum glutamic oxalacetic and glutamic pyruvic transaminases. Am J Clin Pathol 1957, 28, 56–63.
- Dunn WL. (1974). Hand book of histopathological and Histochemical Techniques. Trowbridge and Esher: Redwood Burn Ltd.
- Rao, K.B., Sudarshan, R.P., Rajasekhar, M.D., Nagaraju, N., Rao, A.C. Antidiabetic activity of Terminalia pallid fruit in alloxan induced diabetic rats. J Ethanopharmacol 2003, 85, 169–171.
- Venkatesh, R.D., Kelly, J. Fish oil supplementation in people with diabetes”: A review of the research. J Appl Nutr 2004, 54, 81–83.
- Rajagopal, K., Sasikala, K. Antidiabetic effect of T.arjuna bark extract in alloxn induced diabetic rats. Indian J Clin Biochem 2008, 21, 123–128.
- Davis, R.H., Maro, N.P. Aloe vera and gibberellin. Anti-inflammatory activity in diabetes. J Am Podiatr Med Assoc 1989, 79, 24–26.
- Pari, L. Protective role of Scoparia dulcis plant extract on brain antioxidant status and lipidperoxidation in STZ diabetic male Wistar rats. BMC Complement Altern 2004.
- Zheng, J.M., Zhu, J.M., Li, L.S., Liu, Z.H. Rhein reverses the diabetic phenotype of mesangial cells over-expressing the glucose transporter (GLUT1) by inhibiting the hexosamine pathway. Br J Pharmacol 2008, 153, 1456–1464.
- Sharma, N., Garg, V., Paul, A. Antihyperglycemic, antihyperlipidemic and antioxidative potential of Prosopis cineraria bark. Indian J Clin Biochem 2010, 25, 193–200.
- AI-Shamaony, L., AI-Khazraji, S.M., Twaij, H.A.A. Hypoglycemic effect of Artemesia herba alba II.Effect of a valuable extract on some blood glucose parameters in diabetic animals. J Enthanopharmacol 1994, 43, 167–171.
- Delvin TM. (1992). Protein Metabolism, Textbook of Biochemistry with clinical Correction. New York: John Wiley and Sons Inc., 585–587.
- Sun, L., Halaihel, N., Zhang, W., Rogers, T., Levi, M. Role of sterol regulatory element-binding protein 1 in regulation of renal lipid metabolism and glomerulosclerosis in diabetes mellitus. J Biol Chem 2002, 277, 18919–18927.
- Rang, H.P., Dale, M.M., Ritter, J.M., Moore, P.K. The endocrine pancreas and the control of blood glucose. J Pharmacol 2001, 5, 385–392.
- Yan, L., Zhao-jie, C., Yong-tao, L., Li-yang, C., Dan, Z., Wei-liang, G., Xiao-dong, R., Yi, W., Li-rong, T. Extraction and antidiabetic activity on alloxan induced diabetic mice of polysaccharides from Huidouba. Chem Res 2009, 25, 681–685.
- Sophia, D., Manoharan, S. Hypolipidemic activities of Ficus racemosa Linn. bark in alloxan induced diabetic rats. Afr J Tradit Complement Altern Med 2007, 4, 279–288.
- Hamdy, M., Moselhy, S., Makhlou, A., Fathy, H. Cod liver oil in chemically –induced diabetes mellitus in rats. J Biol Res 2007, 7, 59–65.
- Yadav, S., Grover, J.K., Vats, V. Medicinal plants of India with antidiabetic potential. J Ethanopharmacol 2008, 81, 81–100.
- Suryawanshi, N.P., Bhutey, A.K., Nagdeote, A.N., Jadhav, A.A., Manoorkar, G.S. Study of lipid peroxide and lipid profile in diabetes mellitus. Indian J Clin Biochem 2006, 21, 126–130.
- Mooradian, A.D., Haas, M.J., Wehmeier, K.R., Wong, N.C. Obesity-related changes in high-density lipoprotein metabolism. Obesity (Silver Spring) 2008, 16, 1152–1160.
- Kudchodkar, B.J., Lee, M.J., Lee, S.M., DiMarco, N.M., Lacko, A.G. Effect of dietary protein on cholesterol homeostasis in diabetic rats. J Lipid Res 1988, 29, 1272–1287.
- Braun, J.E., Severson, D.L. Regulation of the synthesis, processing and translocation of lipoprotein lipase. Biochem J 1992, 287 (Pt 2), 337–347.
- Chahil, T.J., Ginsberg, H.N. Diabetic dyslipidemia. Endocrinol Metab Clin North Am 2006, 35, 491–510, vii.
- Lopes-Virella, M.F., Wohltmann, H.J., Mayfield, R.K., Loadholt, C.B., Colwell, J.A. Effect of metabolic control on lipid, lipoprotein, and apolipoprotein levels in 55 insulin-dependent diabetic patients. A longitudinal study. Diabetes 1983, 32, 20–25.
- Vadivu, R., Krithika, A., Dedeepya, P., Lakshmi, K.S. Evaluation of hepatoprotective activity of the fruits of Coccinia grandis Linn. Int J Health Res 2008, 1, 164–168.
- Daisy, P., Santosh, K., Rajathi, M. Antihyperglycemic and antihyperlipidemic effects of Clitoria ternatea Linn.in alloxan-induced diabetic rats. Afr J Microbiol Res 2009, 3, 287–291.
- Ragavan, B., Krishnakumari, S. Antidiabetic effect of T.arjuna bark extract in alloxan induced diabetic rats. Indian J Clin Biochem 2006, 21, 123–128.