Joseph G. Motwani scite author profile

Aortocoronary saphenous vein graft disease, with its increasing clinical sequelae, presents an important and unresolved dilemma in cardiological practice. During the 1st month after bypass surgery, vein graft attrition results from thrombotic occlusion, while later the dominant process is atherosclerotic obstruction occurring on a foundation of neointimal hyperplasia. Although the risk factors predisposing to vein graft atherosclerosis are broadly similar to those recognized for native coronary disease, the pathogenic effects of these risk factors are amplified by inherent deficiencies of the vein as a conduit when transposed into the coronary arterial circulation. A multifaceted strategy aimed at prevention of vein graft disease is emerging, elements of which include: continued improvements in surgical technique; more effective antiplatelet drugs; increasingly intensive risk factor modification, in particular early and aggressive lipid-lowering drug therapy; and a number of evolving therapies, such as gene transfer and nitric oxide donor administration, which target vein graft disease at an early and fundamental level. At present, a key measure is to circumvent the problem of vein graft disease by preferential selection of arterial conduits, in particular the internal mammary arteries, for coronary bypass surgery whenever possible.

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Plasma brain natriuretic peptide as an indicator for angiotensin-converting-enzyme inhibition after myocardial infarction

Motwani

et al. 1993

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Clearance of brain natriuretic peptide in patients with chronic heart failure: indirect evidence for a neutral endopeptidase mechanism but against an atrial natriuretic peptide clearance receptor mechanism

Lang

Motwani

Coutie

et al. 1992

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1. Brain natriuretic peptide is a new natriuretic hormone with striking similarity to atrial natriuretic peptide, but there are no previous data concerning its clearance in man. Two pathways of clearance for atrial natriuretic peptide are recognized: degradation by neutral endopeptidase and binding to atrial natriuretic peptide clearance receptors. We have examined the effect of candoxatril, an inhibitor of neutral endopeptidase (dose range 10-200 mg), and the effect of an infusion of a pharmacological dose [45 micrograms (90 micrograms in two patients)] of synthetic human atrial natriuretic peptide on plasma human brain natriuretic peptide-like immunoreactivity levels in seven patients with mild to moderate chronic heart failure. 2. Plasma human brain natriuretic peptide-like immunoreactivity levels were elevated in all patients (mean +/- SEM 22.0 +/- 6.2 pmol/l) compared with healthy control subjects (1.3 +/- 0.2 pmol/l, n = 11). 3. In all patients, candoxatril increased both plasma atrial natriuretic peptide (P less than 0.05) and plasma human brain natriuretic peptide-like immunoreactivity (P less than 0.05) levels. 4. By contrast, an exogenous infusion of atrial natriuretic peptide had no effect on plasma human brain natriuretic peptide-like immunoreactivity levels despite increasing the plasma atrial natriuretic peptide concentration to 424 +/- 74 pmol/l, which is a level of atrial natriuretic peptide which would have 'swamped' all atrial natriuretic peptide clearance receptors. 5. We have therefore shown that plasma human brain natriuretic peptide-like immunoreactivity levels in chronic heart failure are increased by a neutral endopeptidase inhibitor, but are unchanged by an exogenous infusion of atrial natriuretic peptide.(ABSTRACT TRUNCATED AT 250 WORDS)

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Natriuretic Response to Neutral Endopeptidase Inhibition Is Blunted by Enalapril in Healthy Men

Motwani

Lang²,

Cramb³

et al. 1995

Hypertension

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We studied six healthy male subjects in a randomized, placebo-controlled, single-blind fashion to determine the comparative effects on renal hemodynamics and natriuresis of the angiotensin-converting enzyme inhibitor enalapril (5 mg on each of 5 days preceding the study), the neutral endopeptidase inhibitor candoxatrilat (200 mg IV), and the combination of enalapril and candoxatrilat. Enalapril pretreatment alone, compared with placebo, produced slight nonsignificant increments in absolute and fractional sodium excretions and a marked increase in effective renal plasma flow but no change in glomerular filtration rate. Candoxatrilat alone produced marked augmentation of both absolute and fractional sodium excretions. The candoxatrilat-mediated increment in absolute sodium excretion was significantly correlated with increases in urinary cGMP and plasma atrial natriuretic peptide in response to this drug, but neither effective renal plasma flow nor glomerular filtration rate was altered compared with placebo. Combining enalapril pretreatment with candoxatrilat significantly attenuated the increments in absolute and fractional sodium excretions in response to the neutral endopeptidase inhibitor. Blood pressure was reduced by enalapril alone compared with placebo, whereas candoxatrilat treatment alone led to a marginal but significant enhancement of blood pressure. The combination of enalapril and candoxatrilat abolished any significant blood pressure change compared with placebo. Thus, candoxatrilat-mediated natriuresis occurs via a renal tubular rather than glomerular mechanism and is blunted by enalapril. This attenuation by enalapril may occur by interference with angiotensin II-dependent effects on the renal tubule or on systemic blood pressure.

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Dose-response study of the redistribution of intravascular volume by angiotensin II in man

Motwani

Struthers

1992

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1. The response of systemic and regional haemodynamic indices to increasing infusion rates of angiotensin II (1, 3 or 10 ng min-1 kg-1) or placebo [5% (w/v) D-glucose] was studied in eight normal male subjects. 2. As compared with placebo, angiotensin II infusion caused an incremental rise in the serum angiotensin II level [14.5 +/- 7.7 (placebo) to 187.2 +/- 36.1 (10 ng of angiotensin II min-1 kg-1) pmol/l; mean +/- 95% confidence interval] associated with a stepwise increase in total peripheral resistance [880 +/- 42 (placebo) to 1284 +/- 58 (10 ng of angiotensin II min-1 kg-1) dyn s cm-5] and a progressive reduction in cardiac output [8.3 +/- 0.4 (placebo) to 7.0 +/- 0.4 (10 ng of angiotensin II min-1 kg-1) litres/min]. 3. A stepwise fall in renal blood flow was observed with increasing angiotensin II infusion rate [1302 +/- 65 (placebo) to 913 +/- 64 (10 ng of angiotensin II min-1 kg-1) ml/min]. In contrast, calf blood flow was unaffected by 1 ng or 3 ng of angiotensin II min-1 kg-1 and was significantly increased by 10 ng of angiotensin II min-1 kg-1 (P less than 0.01). 4. Calf venous capacitance was uninfluenced by 1 ng of angiotensin II min-1 kg-1, but was significantly increased by both 3 ng (P less than 0.005) and 10 ng (P less than 0.001) of angiotensin II min-1 kg-1.(ABSTRACT TRUNCATED AT 250 WORDS)

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Joseph G. Motwani

Aortocoronary Saphenous Vein Graft Disease

Plasma brain natriuretic peptide as an indicator for angiotensin-converting-enzyme inhibition after myocardial infarction

Clearance of brain natriuretic peptide in patients with chronic heart failure: indirect evidence for a neutral endopeptidase mechanism but against an atrial natriuretic peptide clearance receptor mechanism

Natriuretic Response to Neutral Endopeptidase Inhibition Is Blunted by Enalapril in Healthy Men

Dose-response study of the redistribution of intravascular volume by angiotensin II in man

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