Syed Husain

Aspirin Improves Endothelial Dysfunction in Atherosclerosis

BACKGROUND The beneficial effects of aspirin in atherosclerosis are generally attributed to its antiplatelet activities, but its influence on endothelial function remains uncertain. We hypothesized that a cyclooxygenase-dependent constricting factor contributes to the endothelial dysfunction in atherosclerosis and that its action can be reversed by aspirin. METHODS AND RESULTS In 14 patients with coronary atherosclerosis and 5 with risk factors, we tested femoral vascular endothelial function with acetylcholine and substance P and endothelium-independent function with sodium nitroprusside before and after intravenous aspirin. Drugs were infused into the femoral artery, and Doppler flow velocity was measured. Acetylcholine-induced but not substance P-or sodium nitroprusside-induced vasodilation was lower in patients with atherosclerosis than in those with only risk factors. Aspirin had no baseline effect but improved acetylcholine-mediated vasodilation only in patients with atherosclerosis; at the peak dose, acetylcholine-mediated femoral vascular resistance index was 19 +/- 5%, P=.002 lower. There was a correlation between the baseline response to acetylcholine and the magnitude of improvement with aspirin (r=.5, P=.05). Thus, patients with a depressed response to acetylcholine had greater improvement with aspirin, and vice versa. The presence of atherosclerosis was an independent determinant of improvement with aspirin. Aspirin had no effect on the responses to either substance P or sodium nitroprusside. CONCLUSIONS Cyclooxygenase-dependent, endothelium-derived vasoconstrictor release modulates acetylcholine-induced peripheral vasodilation in patients with atherosclerosis. Improvement of endothelial dysfunction with aspirin may improve vasodilation, reduce thrombosis, and inhibit progression of atherosclerosis and provides a pathophysiological basis for the beneficial effects of aspirin in atherosclerosis.

Coronary Vascular Nitric Oxide Activity in Hypertension and Hypercholesterolemia Comparison of Acetylcholine and Substance P

BACKGROUND Whether the abnormal responses of the human coronary circulation to acetylcholine in patients with hypertension and hypercholesterolemia extend to other, nonmuscarinic stimulators of the endothelium and whether this signifies a specific abnormality of NO is not known. METHODS AND RESULTS We studied 26 patients with angiographically normal coronary arteries, 10 without risk factors, and 16 with either hypertension (n = 9) and/or hypercholesterolemia (n = 10). Dose-response curves were performed with acetylcholine, substance P, and sodium nitroprusside before and after NG-monomethyl-L-arginine (L-NMMA). Substance P produced predominantly epicardial coronary dilation, whereas the dilating effect of acetylcholine was mainly microvascular. There was no correlation between the responses to the two drugs. L-NMMA did not affect the response to sodium nitroprusside, but it suppressed dilation in response to both substance P and acetylcholine, suggesting that the latter promote bioavailability of NO from the coronary vascular endothelium. Compared with patients without risks, those with hypercholesterolemia and hypertension had significantly reduced vasodilation with substance P: 21% versus 12.6% (P = .004) increase in epicardial coronary diameter and 35% versus 19% (P < .05) decrease in vascular resistance. Similar differences were noted with acetylcholine but not with sodium nitroprusside or adenosine. Epicardial and microvascular dilations with substance P or acetylcholine after L-NMMA were similar in patients with and without risk factors, indicating that the reduced effect of endothelium-dependent vasodilators in those with hypertension and hypercholesterolemia is due to diminished NO activity. CONCLUSIONS (1) Substance P- and acetylcholine-induced coronary vasodilation, like that to acetylcholine, is at least partly due to stimulation of NO activity, indicating that the dysfunction of the coronary vascular endothelial cell layer is not restricted to muscarinic receptors. (2) Hypertension and hypercholesterolemia are associated with depression of both basal and pharmacologically stimulated bioavailability of NO.

Nitric oxide activity in the atherosclerotic human coronary circulation.

OBJECTIVES We determined the activity of nitric oxide at rest and after acetylcholine in the atherosclerotic human coronary circulation. BACKGROUND Although responses to acetylcholine, an endothelium-dependent vasodilator, are abnormal in patients with coronary atherosclerosis, whether this reflects abnormal nitric oxide activity in humans in vivo has not been investigated previously. METHODS We investigated the effects of intracoronary L-NG-monomethyl arginine (L-NMMA), a specific antagonist of nitric oxide synthesis, on coronary vascular resistance and epicardial coronary artery diameter at rest and after acetylcholine in 24 patients with coronary artery disease and in 12 subjects with angiographically normal coronary arteries who were free from atherosclerotic risk factors. RESULTS With L-NMMA, the 13 +/- 4% (mean +/- SEM) increase in coronary vascular resistance and the 4 +/- 1% lumen diameter narrowing in atherosclerotic patients were lower than the 38 +/- 9% increase in resistance and the 15 +/- 2% decrease in diameter (both p < 0.01) observed in normal control subjects, indicating reduced basal nitric oxide activity in atherosclerosis. The degree of angiographic atherosclerotic narrowing did not correlate with the magnitude of diameter reduction. Acetylcholine-induced coronary epicardial and microvascular dilation was also depressed in atherosclerotic patients (32.2 +/- 9% reduction in coronary vascular resistance with 10(-6) mol/liter acetylcholine) compared with normal control subjects (65.5 +/- 2% decrease, p < 0.01). L-NMMA inhibited acetylcholine-induced epicardial and microvascular vasodilation in both patient groups, but the inhibition was greater in normal control subjects than in atherosclerotic patients, indicating that stimulation of nitric oxide activity by acetylcholine is reduced in atherosclerotic patients compared with normal control subjects. Coronary vascular dilation with sodium nitroprusside was similar in both groups and was not suppressed by L-NMMA. Furthermore, L-arginine reversed the constrictor effects of L-NMMA, indicating that the action of L-NMMA is specifically caused by inhibition of nitric oxide production from L-arginine. CONCLUSIONS These findings indicate that 1) there is a reduced basal activity of nitric oxide in the human atherosclerotic epicardial and microvascular coronary circulation; and 2) acetylcholine-induced coronary vascular dilation is at least partly due to stimulation of the activity of nitric oxide, and the reduced response to acetylcholine is due to attenuation in the stimulated activity of nitric oxide in patients with atherosclerosis.

Contribution of Nitric Oxide to Reactive Hyperemia Impact of Endothelial Dysfunction

Our objectives were to (1) test the hypothesis that nitric oxide (NO) contributes to peak reactive hyperemia (RH) in the human peripheral vasculature, (2) examine the impact of atherosclerosis and its risk factors on RH, and (3) investigate whether L-arginine will improve RH in patients with endothelial dysfunction. The endothelium contributes to shear stress-mediated vasomotion by releasing a variety of dilating factors, including NO, but the contribution of NO to peak RH in patients with and without endothelial dysfunction is unknown. Endothelium-dependent and endothelium-independent function was assessed with intrafemoral arterial acetylcholine (ACh) and sodium nitroprusside. RH was produced by occlusion of blood flow to the leg for 3 minutes. The study was repeated after NG-monomethyl-L-arginine (L-NMMA) in 44 subjects and L-arginine in 9 patients with atherosclerosis. There were 15 normal control subjects without risk factors for atherosclerosis and 29 patients with risk factors or angiographic atherosclerosis. Microvascular vasodilation in response to ACh, but not to sodium nitroprusside, was lower in the patients with risk factors or atherosclerosis compared with normal control subjects, P=0.048, and the inhibition of ACh-induced microvascular dilation by L-NMMA was also greater in normal control subjects (P=0.045). Similarly, RH, including the peak response, was inhibited by L-NMMA in normal control subjects (P=0.0011) but not in patients with risk factors or atherosclerosis, suggesting that the contribution of NO to both ACh-induced dilation and RH was diminished in patients with risk factors or atherosclerosis. L-Arginine did not affect vasodilation in response to ACh, sodium nitroprusside, or RH. We concluded that (1) NO contributes to all phases of RH in the normal human peripheral vasculature, (2) patients with atherosclerosis or its risks have abnormal NO bioactivity in response to pharmacological and physiological stimulation, and (3) L-arginine does not improve RH in atherosclerosis. Reduced physiological vasodilation in atherosclerosis may contribute to or exacerbate hypertension and ischemia.

Insertion-Deletion Polymorphism of the ACE Gene Modulates Reversibility of Endothelial Dysfunction With ACE Inhibition

BACKGROUND The aim of this study was to examine whether angiotensin-converting enzyme (ACE) inhibition improves coronary endothelial dysfunction in patients with atherosclerosis and its risk factors and whether this was related to the ACE insertion-deletion (I/D) polymorphism. METHODS AND RESULTS In 56 patients with atherosclerosis or its risk factors, we studied endothelium-dependent responses with acetylcholine and endothelium-independent function with sodium nitroprusside, before and after ACE inhibition with enalaprilat. Enalaprilat did not alter either resting coronary tone or vasodilation with sodium nitroprusside. However, it potentiated the coronary microvascular and epicardial responses with acetylcholine; coronary blood flow increased from 82+/-7 to 90+/-8 mL/min (P=0.05) after enalaprilat. Patients with depressed endothelial function (P<0.001) and those with ACE DD or ID genotypes (P=0.002) but not those homozygous for the I allele had the greatest improvement by multivariate analysis. Similarly, acetylcholine-mediated epicardial vasomotion improved in segments that initially constricted (endothelial dysfunction): from -10.1+/-1% to -1.4+/-2% (P<0.001) after enalaprilat. No augmentation was observed in segments that dilated (normal endothelial dysfunction) with acetylcholine. Patients with the D allele, hypercholesterolemia, and smokers (all P<0.05) had greater improvement. CONCLUSIONS Acute ACE inhibition improves coronary epicardial and microvascular endothelium-dependent vasomotion in patients with atherosclerosis or its risk factors who have endothelial dysfunction and presence of the D allele.

Abnormal flow-mediated epicardial vasomotion in human coronary arteries is improved by angiotensin-converting enzyme inhibition: a potential role of bradykinin.

OBJECTIVES This study was performed to determine whether angiotensin converting enzyme (ACE) inhibition improves endothelium-dependent flow-mediated vasodilation in patients with atherosclerosis or its risk factors and whether this is mediated by enhanced bradykinin activity. BACKGROUND Abnormal coronary vasomotion due to endothelial dysfunction contributes to myocardial ischemia in patients with atherosclerosis, and its reversal may have an antiischemic action. Previous studies have shown that ACE inhibition improves coronary endothelial responses to acetylcholine, but whether this is accompanied by improved responses to shear stress remains unknown. METHODS In 19 patients with mild atherosclerosis, metabolic vasodilation was assessed during cardiac pacing. Pacing was repeated during separate intracoronary infusions of low-dose bradykinin (BK) and enalaprilat. Endothelium-dependent and -independent vasodilation was estimated with intracoronary BK and sodium nitroprusside respectively. RESULTS Enalaprilat did not alter either resting coronary vascular tone or dilation with sodium nitroprusside, but potentiated BK-mediated dilation. Epicardial segments that constricted abnormally with pacing (-5+/-1%) dilated (3+/-2%) with pacing in the presence of enalaprilat (p = 0.002). Similarly, BK at a concentration (62.5 ng/min) that did not alter resting diameter in the constricting segments also improved the abnormal response to a 6+/-1% dilation (p < 0.001). Cardiac pacing-induced reduction in coronary vascular resistance of 27+/-4% (p < 0.001) remained unchanged after enalaprilat. CONCLUSIONS Thus ACE inhibition: A) selectively improved endothelium-dependent but not-independent dilation, and B) abolished abnormal flow-mediated epicardial vasomotion in patients with endothelial dysfunction, in part, by increasing endogenous BK activity.

Effect of enalaprilat on nitric oxide activity in coronary artery disease

Atherosclerosis is associated with vascular endothelial dysfunction and reduced nitric oxide (NO) activity. Enhancement of NO activity may have an antiatherogenic action. This study was performed to determine whether angiotensin-converting enzyme (ACE) inhibition improves peripheral vascular NO activity in patients with atherosclerosis. In the femoral circulation of 43 patients with atherosclerosis and 10 controls, we studied endothelium-dependent vasodilation with bradykinin and acetylcholine, and endothelium-independent vasodilation with sodium nitroprusside before and after enalaprilat. In 22 patients, we repeated these infusions in the presence of L-N(G) monomethyl arginine (L-NMMA). Doppler-femoral artery flow velocity was measured. Before ACE inhibition, acetylcholine responses were depressed in patients with atherosclerosis compared with controls (p = 0.03). Enalaprilat did not alter femoral vascular tone at rest or vasodilation with sodium nitroprusside, but potentiated bradykinin-mediated vasodilation in patients (p<0.001) and controls (p = 0.02). Acetylcholine-mediated vasodilation was augmented only in patients (p<0.001), but not in control subjects. L-NMMA inhibited the potentiation by enalaprilat of acetylcholine and bradykinin responses. This study demonstrates that ACE inhibition selectively improves endothelial dysfunction in human atherosclerosis by enhancing NO activity. The antithrombotic and antiproliferative effects of NO may reduce adverse manifestations related to atherosclerosis during long-term therapy.

Contribution of bradykinin receptor dysfunction to abnormal coronary vasomotion in humans

OBJECTIVES The aim of our study was to investigate coronary vascular kinin receptor function in patients with atherosclerosis or its risk factors. BACKGROUND Although acetylcholine (ACH) is used as a probe for testing vascular function in vivo, endogenous bradykinin (BK) regulates resting and flow-mediated epicardial tone. METHODS In 53 patients with mild atherosclerosis or its risk factors and 9 control subjects, endothelium-dependent vasomotion was tested with intracoronary ACH (30 microg/min) and BK (62.5 ng/min and 4 microg/min), and endothelium-independent function with sodium nitroprusside. Metabolic vasodilation was assessed during cardiac pacing (n = 19). Correlation with serum angiotensin-converting enzyme (ACE) levels and the ACE insertion/deletion genotype was performed. RESULTS There was progressive impairment in ACH-mediated microvascular dilation with increasing numbers of risk factors (p = 0.025, analysis of variance). By contrast, BK- and sodium nitroprusside-mediated microvascular dilation was similar in all groups. Similarly, there was no correlation between epicardial coronary responses to ACH and BK; segments that constricted or dilated with ACH had similar dilator responses with BK. Bradykinin, but not ACH-mediated vasomotion, was depressed in epicardial segments that constricted with pacing. Finally, epicardial BK responses were depressed in patients with high ACE levels and in those with the ACE DD genotype. CONCLUSIONS Endothelial dysfunction in atherosclerosis appears to be receptor-specific, involving the muscarinic receptor with relative sparing of the kinin receptor pathways. Abnormal reactivity of epicardial coronary arteries during physiologic stress is better represented by BK and not by ACH responses. Bradykinin activity and, hence, physiologic coronary vasomotion appears to be influenced by serum ACE levels and the ACE insertion/deletion genotype.

010 Multicentre validation of the adverse prognostic implications of declining serum albumin levels in chronic heart failure

Background Single-centre studies have shown that a low serum albumin at baseline forecasts enhanced mortality in chronic heart failure (CHF) possibly because it reflects aberrations (eg, inflammation, impaired nutrition, plasma volume expansion) that can exacerbate disease. We hypothesised that attenuations in serum albumin over time would be prognostically more ominous than baseline values, and would be so even in a multicentre setting. Methods We analysed the survival implications of baseline albumin and ∆albumin in a derivation cohort of 246 CHF outpatients (mean [±SD] age 68±12 years, LVEF 29±8%, 48% NYHA class >2) from University College London Hospital and then in a validation cohort of 148 CHF outpatients (age 69±12 years, LVEF 28±10%, 41% NYHA class >2) from Imperial Healthcare (St Marys Hospital and Hammersmith Hospital, London). Results In the derivation cohort, 51 (21%) patients died over 13 months. Baseline albumin independently predicted mortality (HR 0.89, 95% CI 0.84 to 0.94, χ2:18, p<0.0001). However, ∆albumin (unadjusted HR 0.89, 95% CI 0.84 to 0.92, χ2:53, p<0.0001) was even more predictive (Difference in ROC AUC for baseline vs ∆albumin 0.16, p<0.001) and did so independently of all covariates including baseline albumin. A reduction in albumin > 6 g/l optimally predicted death (ROC AUC 0.82, p<0.0001) and conferred a sixfold escalated risk of mortality (HR 6.42, 95% CI 3.67 to 11.22, p<0.0001). In incremental prognostic analyses, the addition of ∆albumin to the strongest four variable model (baseline albumin, NYHA class, ∆urea, ∆haemoglobin) dramatically augmented the χ2 value (43 vs 84, p<0.0001). In the validation cohort, 43 (30%) patients died. ∆albumin (unadjusted HR 0.89, 95% CI 0.86 to 0.92, χ2: 44, p<0.0001) was again prognostically superior to baseline albumin with a fall >6 g/l predicting an ∼sixfold increased risk (HR 5.64, 95% CI 3.08 to 10.31, χ2: 35, p<0.0001). Addition of ∆albumin to the strongest three variable model (baseline red cell distribution width, ∆red cell distribution width, ∆urea) also augmented the χ2 value (51 vs 65, p<0.001). Conclusions A fall in serum albumin over time consistently predicts an amplified risk of death in systolic CHF and enables simple and cheap risk stratification.

OPTIMAL EUROSCORES FOR PREDICTING INPATIENT DEATHS IN PATIENTS WITH LEFT VENTRICULAR SYSTOLIC DYSFUNCTION UNDERGOING CARDIAC SURGERY

The utility of surgery revascularization in patients (pts) with a low LVEF and operable coronary disease is unclear, highlighting the importance of risk stratification. Whilst the EuroSCORE and Parsonnet score (PS) are established prognosticators, their relative utility and optimal cut-offs in pts