damage in rats microvascular with glomerular hypertension and renal Fructose-induced metabolic syndrome is associated
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Takahiko Nakagawa | Richard J. Johnson | Jaime Herrera-Acosta | Tomás Nepomuceno | Virgilia Soto | Carmen Ávila-Casado | Laura G. Sánchez-Lozada | Edilia Tapia | Adriana Jiménez | Pablo Bautista | T. Nakagawa | Richard J. Johnson | L. Sánchez-Lozada | E. Tapia | J. Herrera-Acosta | C. Ávila-Casado | Virgilia Soto | Tomás Nepomuceno | Pablo Bautista | A. Jiménez | C. Avila-Casado
[1] R. Miatello,et al. Aortic smooth muscle cell proliferation and endothelial nitric oxide synthase activity in fructose-fed rats. , 2001, American journal of hypertension.
[2] Takahiko Nakagawa,et al. A causal role for uric acid in fructose-induced metabolic syndrome. , 2006, American journal of physiology. Renal physiology.
[3] T. Nakagawa,et al. Hyperuricemia Causes Glomerular Hypertrophy in the Rat , 2002, American Journal of Nephrology.
[4] T. Sugaya,et al. Evidence for a Causal Role of the Renin-Angiotensin System in Vascular Dysfunction Associated With Insulin Resistance , 2004, Hypertension.
[5] M. Adachi,et al. Angiotensin II infusion decreases plasma adiponectin level via its type 1 receptor in rats: an implication for hypertension-related insulin resistance. , 2006, Metabolism: clinical and experimental.
[6] Jaime Herrera-Acosta,et al. Mild hyperuricemia induces vasoconstriction and maintains glomerular hypertension in normal and remnant kidney rats. , 2005, Kidney international.
[7] Jing Chen,et al. The Metabolic Syndrome and Chronic Kidney Disease in U.S. Adults , 2004, Annals of Internal Medicine.
[8] W. J. Johnson,et al. Effect of fructose administration on serum urate levels in the uricase inhibited rat , 1976, Experientia.
[9] J. Hallfrisch. Metabolic effects of dietary fructose , 1990, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[10] A. Gown,et al. Expression of smooth muscle cell phenotype by rat mesangial cells in immune complex nephritis. Alpha-smooth muscle actin is a marker of mesangial cell proliferation. , 1991, The Journal of clinical investigation.
[11] K. Shimamoto,et al. Blockade of the renin-angiotensin system decreases adipocyte size with improvement in insulin sensitivity. , 2004, Journal of hypertension.
[12] C. Alpers,et al. Renal injury from angiotensin II-mediated hypertension. , 1992, Hypertension.
[13] Richard J. Johnson,et al. Glomerular hemodynamic changes associated with arteriolar lesions and tubulointerstitial inflammation. , 2003, Kidney international. Supplement.
[14] Richard J. Johnson,et al. Uric acid and diet--insights into the epidemic of cardiovascular disease. , 2004, The New England journal of medicine.
[15] B. Brenner,et al. Determination of serum protein concentration in nanoliter blood samples using fluorescamine or 9-phthalaldehyde. , 1978, Analytical biochemistry.
[16] K. Iseki,et al. Body mass index and the risk of development of end-stage renal disease in a screened cohort. , 2004, Kidney international.
[17] J. Hughes,et al. Elevated Uric Acid Increases Blood Pressure in the Rat by a Novel Crystal-Independent Mechanism , 2001, Hypertension.
[18] G. G. Vurek,et al. Fluorometric method for the determination of nanogram quantities of inulin , 1966 .
[19] P. Hsieh. Reversal of fructose-induced hypertension and insulin resistance by chronic losartan treatment is independent of AT2 receptor activation in rats , 2005, Journal of hypertension.
[20] M. Sackner,et al. SIMPLIFICATION OF THE ANTHRONE METHOD FOR THE DETERMINATION OF INULIN IN CLEARANCE STUDIES. , 1963, The Journal of laboratory and clinical medicine.
[21] A. Howie,et al. Comparison of size of juxtamedullary and outer cortical glomeruli in normal adult kidney , 2006, Virchows Archiv A.
[22] W. N. Kelley,et al. Studies on the mechanism of fructose-induced hyperuricemia in man. , 1972, Metabolism: clinical and experimental.
[23] M. Mulvany,et al. Morphology of renal afferent arterioles in spontaneously hypertensive rats. , 1992, Hypertension.
[24] V. D’Agati,et al. Obesity-related glomerulopathy: an emerging epidemic. , 2001, Kidney international.
[25] R. Largo,et al. Mycophenolate mofetil prevents salt-sensitive hypertension resulting from nitric oxide synthesis inhibition. , 2001, American journal of physiology. Renal physiology.
[26] T. Nakagawa,et al. Mild hyperuricemia induces glomerular hypertension in normal rats. , 2002, American journal of physiology. Renal physiology.
[27] N. Keim,et al. Fructose, weight gain, and the insulin resistance syndrome. , 2002, The American journal of clinical nutrition.
[28] G. Reaven. Role of Insulin Resistance in Human Disease , 1988, Diabetes.
[29] L. Fine,et al. Renal hypertrophy, growth factors, and nephropathy in diabetes mellitus. , 1990, Seminars in nephrology.
[30] J. McNeill,et al. Fructose-induced hypertension in rats is concentration- and duration-dependent. , 1995, Journal of pharmacological and toxicological methods.
[31] K. Raivio,et al. FRUCTOSE-INDUCED HYPERURICÆMIA , 1967 .
[32] B. Brenner,et al. Effects of some vasodilator drugs on transcapillary fluid exchange in renal cortex. , 1976, The American journal of physiology.
[33] G. Reaven,et al. Fructose-induced insulin resistance and hypertension in rats. , 1987, Hypertension.