Fisiología Medica
Mayo Clinic
Rochester, Estados UnidosPublikationen in Zusammenarbeit mit Forschern von Mayo Clinic (12)
2013
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Activation of the transcription factor gli1 by wnt signaling underlies the role of SULFATASE 2 as a regulator of tissue regeneration
Journal of Biological Chemistry, Vol. 288, Núm. 29, pp. 21389-21398
2003
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Effect of losartan on renal microvasculature during chronic inhibition of nitric oxide visualized by micro-CT
American Journal of Physiology - Renal Physiology, Vol. 285, Núm. 5 54-5
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Vitamin E prevents renal dysfunction induced by experimental chronic bile duct ligation
Kidney International, Vol. 64, Núm. 3, pp. 950-961
2000
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Pressor and renal effects of cross-linked hemoglobin in anesthetized cirrhotic rats
Journal of Hepatology, Vol. 32, Núm. 1, pp. 32-37
1992
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Blockade of pressure natriuresis induced by inhibition of renal synthesis of nitric oxide in dogs
American Journal of Physiology - Renal Fluid and Electrolyte Physiology, Vol. 262, Núm. 5 31-5
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Role of nitric oxide in mediating renal response to volume expansion
Hypertension, Vol. 19, Núm. 6, pp. 780-784
1991
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Effects of NG-nitro-L-arginine methyl ester on renal function and blood pressure
American Journal of Physiology - Renal Fluid and Electrolyte Physiology, Vol. 261, Núm. 6 30-6
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Mediatory role of endothelium-derived nitric oxide in renal vasodilatory and excretory effects of bradykinin
American Journal of Hypertension, Vol. 4, Núm. 3, pp. 260-262
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Role of prostaglandins and endothelium-derived relaxing factor on the renal response to acetylcholine
American Journal of Physiology - Renal Fluid and Electrolyte Physiology, Vol. 260, Núm. 1 29-1
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Role of the endothelium-dependent relaxing factor nitric oxide on renal function
Journal of the American Society of Nephrology, Vol. 2, Núm. 9, pp. 1371-1387
1990
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Effects of NG-monomethyl-L-arginine and L-arginine on acetylcholine renal response
Hypertension, Vol. 15, Núm. 6 PART 1, pp. 659-663