Prameha in terms of Diabetes Mellitus, Metabolic syndrome and ...
Prameha in terms of Diabetes Mellitus, Metabolic syndrome and ...
Prameha in terms of Diabetes Mellitus, Metabolic syndrome and ...
- No tags were found...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
attenuates aortic tatty streak development <strong>in</strong> rabbits. Ajterioscler Thromb Vase Biol 2002;22:1225-1231.29. Rav<strong>in</strong>dran PN, Nirmal Babu K, Sivaraman K, eds. Tlumeric: The Genus Curcuma. New York: CRC Press, 2007.30. Babu PS, Sr<strong>in</strong>ivasan K. Hypolipidemic action <strong>of</strong> curciunirthe active pr<strong>in</strong>ciple <strong>of</strong> turmeric (Curcuma longa) <strong>in</strong> slieptczotoc<strong>in</strong> <strong>in</strong>duced diabetic cats. Mo] Cell Eioehem 1997;16t169-175.31. Murugan P, Pan L. Effect <strong>of</strong> tetrahydrocurcum<strong>in</strong> on lipkperoxidation <strong>and</strong> lipids <strong>in</strong> streptuzotocm-nicol<strong>in</strong>amide.<strong>in</strong>duced diabetic rats. Basic Cl<strong>in</strong> Pharmacol Toxicol 200699:122-127.32. Strimpakos AS, Sharma RA. Curcum<strong>in</strong>: Preventive anttherapeuticproperties <strong>in</strong> laboratory studies <strong>and</strong> cl<strong>in</strong>icatrials. Antioxid Retfox-Signal 200S;10:511-545.33. Khan A, Safdar M, Ali Khan MM, et al. C<strong>in</strong>namon improves glucose <strong>and</strong> ]ipids <strong>of</strong> people with type 2 diabetes<strong>Diabetes</strong> Care 2003;26:3215-3218.34. Dh<strong>and</strong>apajii S, Subramanian VR, Rajagopal S, NamasivayairN. Hypolipideniic effect <strong>of</strong> Cum<strong>in</strong>um cym<strong>in</strong>um L. on alloxan<strong>in</strong>duceddiabetic rats. Pliarmacol Res 2002;46:251-255.35. Qiithra V, Leelamma S. Cori<strong>and</strong>rum salivum changes thelevels <strong>of</strong> lipid peroxides <strong>and</strong> activity <strong>of</strong> antioxidnnt enzymes <strong>in</strong> experimental animals. Indian J Biochem Biophya1999^6:59-61.36. Ciiithra Vr Leelan-una S. Hypolipidemic effect <strong>of</strong> cori<strong>and</strong>erseeds (Cori<strong>and</strong>rum sativum): Mechanism <strong>of</strong> action. PlantFoods Hum Nil tr 1997^1:167-172.37. Sharma H, Ch<strong>and</strong>ola HM, S<strong>in</strong>gh G, Basisht C. Utilization <strong>of</strong>Ajo<strong>in</strong>'eda <strong>in</strong> health care: An approach for prevention,health promotion, <strong>and</strong> treatment <strong>of</strong> disease. Part 1 @Ayurveda, the science <strong>of</strong> life. J Altern Complement Mod2007;13:1011-1019.38. Kassaian N, Azadbakht L, Porghani B, Am<strong>in</strong>i M. Effect <strong>of</strong>fenugreek seeds on blood glucose <strong>and</strong> lipid pr<strong>of</strong>iles <strong>in</strong> type2 diabetic patients. Int J Vitam Nutr Res 2009;79:34-39.39. Gupta A, Gupta R, Lai B. Effect <strong>of</strong> Trigondla focnumgraectun(fenugreek) seeds on glycaemic control <strong>and</strong> Insul<strong>in</strong>resistance <strong>in</strong> type 2 diabetes mellitus: A double bl<strong>in</strong>d placebo controlled study. J Assoc Physicians India 2001 ;49:1057-1061.10. Sharma RD, Raghura<strong>in</strong> TC, Rao NS. Effect <strong>of</strong> fenugreekseeds on blood glucose <strong>and</strong> serum lipids <strong>in</strong> type 1 diabetes.Eur J Cl<strong>in</strong> Nutr 1990;44:301-306.tl. Hamden K, Masmoudi H, Carreau S, Elfeki A. Immunomodulatory,beta-cell, <strong>and</strong> neuroproteclive actions <strong>of</strong>fenugreek oil from alloxan-<strong>in</strong>duced diabetes. ImnumophannacolImmunotoxicol 2010;32:437-445.\ . Aruiida B, Stanely Mahizen Pr<strong>in</strong>ce P. Supplementation <strong>of</strong>fenugreek leaves reduces oxidative stress <strong>in</strong> streptozotoc<strong>in</strong><strong>in</strong>duceddiabetic rats. J Med Pood 2005;8:3S2-385.3. Devi BA, Kamalakkannan N, Pr<strong>in</strong>ce PS. Supplementation<strong>of</strong> fenugreek leaves to diabetic rats: Effect on carbohydratemetabolic enzymes <strong>in</strong> diabetic liver <strong>and</strong> kidney. PhytotherRes 2003;17:1231-1233.4. Soben<strong>in</strong> IA, Nedosugova LV, Pilatova LV, et al. <strong>Metabolic</strong>effects <strong>of</strong> time-released garlic powder tablets <strong>in</strong> type 2 diabetes mellitus: The results <strong>of</strong> double-bl<strong>in</strong>ded placebocontrolledstudy. Acta Diabetol 2008;45:l-6.5. Eidi A, Eidi M, Esmacili E. Antidiabetic effect <strong>of</strong> garlic(Ailium sativum L.) <strong>in</strong> normal <strong>and</strong> strepto^otoc<strong>in</strong>-<strong>in</strong>duceddiabetic rats. Phytomcdic<strong>in</strong>e 2006;13:624-629.5. Soben<strong>in</strong> IA, Andrianova IV, Demidova ON, ct al. 1-ipidlower<strong>in</strong>geffects <strong>of</strong> time-released garlic powder tablets <strong>in</strong>SHARMA AND CHANDOLAdouble-bl<strong>in</strong>ded placebo-controlled r<strong>and</strong>omized study.Atheroscler Thromb 2008;l5:334-338.47. Bordia A, Vernia SK, Srivastava KC. Effect <strong>of</strong> garli(Allium sativum) on blood lipids, blood sugar, fibr<strong>in</strong>oge<strong>and</strong> fibr<strong>in</strong>olytic activity <strong>in</strong> patients with coronary arterdisease. Pro.sragl<strong>and</strong><strong>in</strong>s Leukot Essent Fatty Acids 19958:257-263.48. Akhtar MS, Athar MA, Yaqub M. Effect <strong>of</strong> Momordiccharantia on blood glucose Jevel <strong>of</strong> normal <strong>and</strong> ailox<strong>and</strong>iabetic rabbits. Planta Med 1981;42:205-212.49. Chaturvedi P, George S. Momordicn charantia ma<strong>in</strong>ta<strong>in</strong>normal glucose levels <strong>and</strong> lipid pr<strong>of</strong>iles <strong>and</strong> prevents oxidalive stress <strong>in</strong> diabetic rats subjected to chronic sucrosiload. J Med Food 2010;!3:520-527.50. Shetty AX, Kumar GS, Sambaiah K, Salimath PV. Effect obitter gourd {Momordicn charnntia) on glycaemic status irslreptozotoc<strong>in</strong> <strong>in</strong>duced diabetic rats. Plant Foods Hun'Nutr 2005;60:109-112.51. Virdi }, Sivakami S, Shahani S, et al. Aiitihyperglycenikeffects <strong>of</strong> three extracts from Momordiai chamntia. J Bthnophannacol2003;88:107-lll.52. Chaturvedi P. Role <strong>of</strong> Momordica charantia <strong>in</strong> ma<strong>in</strong>ta<strong>in</strong><strong>in</strong>gthe normal levels ot lipids <strong>and</strong> glucose <strong>in</strong> diabetic rafs fed aJiigh-rat <strong>and</strong> low-carbohydrate diet. Br J Biomed Sci 2005;62.124-] 26.\ . Paradkar BH, ed. Vagbhata's Ashtanga Hridayam. Varanasi,Indi^: Kdshnadas Academy, 2000.54. Mishra B. Bhavaprakasha. 7th ed. Varanasi, India: CliauklwmbhaSanskrit Series, 20UO:606.5. Fung Tf, Schulzc M, Manson JE, ct al. Dietary pattc<strong>in</strong>s,meat <strong>in</strong>take, <strong>and</strong> the risk <strong>of</strong> type 2 diabetes <strong>in</strong> women. ArchIntern Med 2004;l 64:2235-2240.@6. Schulzc MB, M.mson JE, Willett WC, Hu FB. Processedmeat <strong>in</strong>take <strong>and</strong> <strong>in</strong>cidence <strong>of</strong> type 2 diabetes <strong>in</strong> younger<strong>and</strong> middle-aged women. Diabetologia 2003;46:1465-1473.7. Song Y, Manson JE, Bur<strong>in</strong>g JE, Liu S. A prospective study<strong>of</strong> red meat consumption <strong>and</strong> type 2 diabetes <strong>in</strong> middleaged<strong>and</strong> elderly women: The Women's Health Study,<strong>Diabetes</strong> Care 20'04;27:2108-2115.8. van Dam RM, Willett WC, Rimrn EB, et al. Dietary fat <strong>and</strong>meat <strong>in</strong>take <strong>in</strong> relation to risk <strong>of</strong> type 2 diabetes <strong>in</strong> men.<strong>Diabetes</strong> Care 2002;25:417-424.i>. Micha R, Wallace SK, Mozaffarian D. Red <strong>and</strong> processedmeat consumption <strong>and</strong> risk <strong>of</strong> <strong>in</strong>cident coronary heartdisease, stroke, <strong>and</strong> diabetes meLlirus: A systematic review<strong>and</strong> me la-analysis. Circulation 2010;121:2271-2283.3. Sharma H, Clark C- Contemporary Ayurveda. London:ChLirchill Liv<strong>in</strong>gstone, 199S.I. Bijlani RL, Vempati RP, Yadav RK, et al. A brief but comprehensive lifestyle education program based on yoga reduces risk factors for cardiovascular disease <strong>and</strong> diabetesmelHtus. j Aitem Complement Med 2005;l 1:267-274.1. Malhotra V, S<strong>in</strong>gh S, T<strong>and</strong>on OP, Sharma SB. The beneficial effect <strong>of</strong> yoga <strong>in</strong> diabetes. Nepal Med Coll J 2005;7:145-147.i. S<strong>in</strong>gh S, Malhotra V, S<strong>in</strong>gh KP, et al. Role <strong>of</strong> yoga <strong>in</strong>modify<strong>in</strong>g certa<strong>in</strong> cardiovascular functions <strong>in</strong> type 2 diabetic patients. J A&soc Physicians India 2004;52:203-206.Malhotra V, S<strong>in</strong>gh S, S<strong>in</strong>gh KP, et ai. Study <strong>of</strong> yoga asanas<strong>in</strong> assessment <strong>of</strong> pulmonary function <strong>in</strong> N1DDM patients.Indian J Physiol Pharmacol 2002;46:3Z3-320.. Malhotra V, S<strong>in</strong>gh S, T<strong>and</strong>on OP, et al. Effect <strong>of</strong> yogaasanas on nerve conduction <strong>in</strong> type 2 diabetes. IndianJ Physiol Pharmacol 2002;46:298-306.