Mark Chappell to Angiotensin-Converting Enzyme Inhibitors
This is a "connection" page, showing publications Mark Chappell has written about Angiotensin-Converting Enzyme Inhibitors.
Connection Strength
1.181
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Ferrario CM, Jessup J, Gallagher PE, Averill DB, Brosnihan KB, Ann Tallant E, Smith RD, Chappell MC. Effects of renin-angiotensin system blockade on renal angiotensin-(1-7) forming enzymes and receptors. Kidney Int. 2005 Nov; 68(5):2189-96.
Score: 0.246
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Harrison-Bernard LM, Chappell MC. Unraveling the glomerular RAS: one peptidase at a time. Am J Physiol Renal Physiol. 2012 Aug 01; 303(3):F373-4.
Score: 0.097
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Westwood BM, Chappell MC. Divergent pathways for the angiotensin-(1-12) metabolism in the rat circulation and kidney. Peptides. 2012 Jun; 35(2):190-5.
Score: 0.096
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Isa K, Arnold AC, Westwood BM, Chappell MC, Diz DI. Angiotensin-converting enzyme inhibition, but not AT(1) receptor blockade, in the solitary tract nucleus improves baroreflex sensitivity in anesthetized transgenic hypertensive (mRen2)27 rats. Hypertens Res. 2011 Dec; 34(12):1257-62.
Score: 0.093
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Gwathmey TM, Westwood BM, Pirro NT, Tang L, Rose JC, Diz DI, Chappell MC. Nuclear angiotensin-(1-7) receptor is functionally coupled to the formation of nitric oxide. Am J Physiol Renal Physiol. 2010 Nov; 299(5):F983-90.
Score: 0.086
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Trask AJ, Groban L, Westwood BM, Varagic J, Ganten D, Gallagher PE, Chappell MC, Ferrario CM. Inhibition of angiotensin-converting enzyme 2 exacerbates cardiac hypertrophy and fibrosis in Ren-2 hypertensive rats. Am J Hypertens. 2010 Jun; 23(6):687-93.
Score: 0.083
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Jessup JA, Westwood BM, Chappell MC, Groban L. Dual ACE-inhibition and AT1 receptor antagonism improves ventricular lusitropy without affecting cardiac fibrosis in the congenic mRen2.Lewis rat. Ther Adv Cardiovasc Dis. 2009 Aug; 3(4):245-57.
Score: 0.079
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Diz DI, Garcia-Espinosa MA, Gegick S, Tommasi EN, Ferrario CM, Ann Tallant E, Chappell MC, Gallagher PE. Injections of angiotensin-converting enzyme 2 inhibitor MLN4760 into nucleus tractus solitarii reduce baroreceptor reflex sensitivity for heart rate control in rats. Exp Physiol. 2008 May; 93(5):694-700.
Score: 0.073
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Garabelli PJ, Modrall JG, Penninger JM, Ferrario CM, Chappell MC. Distinct roles for angiotensin-converting enzyme 2 and carboxypeptidase A in the processing of angiotensins within the murine heart. Exp Physiol. 2008 May; 93(5):613-21.
Score: 0.073
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Shaltout HA, Westwood BM, Averill DB, Ferrario CM, Figueroa JP, Diz DI, Rose JC, Chappell MC. Angiotensin metabolism in renal proximal tubules, urine, and serum of sheep: evidence for ACE2-dependent processing of angiotensin II. Am J Physiol Renal Physiol. 2007 Jan; 292(1):F82-91.
Score: 0.065
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Ferrario CM, Jessup J, Chappell MC, Averill DB, Brosnihan KB, Tallant EA, Diz DI, Gallagher PE. Effect of angiotensin-converting enzyme inhibition and angiotensin II receptor blockers on cardiac angiotensin-converting enzyme 2. Circulation. 2005 May 24; 111(20):2605-10.
Score: 0.060
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Ferrario CM, Averill DB, Brosnihan KB, Chappell MC, Iskandar SS, Dean RH, Diz DI. Vasopeptidase inhibition and Ang-(1-7) in the spontaneously hypertensive rat. Kidney Int. 2002 Oct; 62(4):1349-57.
Score: 0.050
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Ferrario CM, Smith RD, Brosnihan B, Chappell MC, Campese VM, Vesterqvist O, Liao WC, Ruddy MC, Grim CE. Effects of omapatrilat on the renin-angiotensin system in salt-sensitive hypertension. Am J Hypertens. 2002 Jun; 15(6):557-64.
Score: 0.049
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Trask AJ, Averill DB, Ganten D, Chappell MC, Ferrario CM. Primary role of angiotensin-converting enzyme-2 in cardiac production of angiotensin-(1-7) in transgenic Ren-2 hypertensive rats. . 2007 Jun; 292(6):H3019-24.
Score: 0.017
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Jessup JA, Gallagher PE, Averill DB, Brosnihan KB, Tallant EA, Chappell MC, Ferrario CM. Effect of angiotensin II blockade on a new congenic model of hypertension derived from transgenic Ren-2 rats. . 2006 Nov; 291(5):H2166-72.
Score: 0.016