Impaired bradykinin response to ischaemia and exercise in patients with mild congestive heart failure during angiotensin-converting enzyme treatment. Relationships with endothelial function, coagulation and inflammation.

Inflammation and endothelial dysfunction play important roles in the pathophysiology of congestive heart failure (CHF), and the peptide bradykinin, generated during inflammation, may act as a defence mechanism by inducing vasodilation. Plasma bradykinin levels are increased in experimental heart failure but low in patients with advanced chronic CHF despite treatment with angiotensin-converting enzyme (ACE) inhibitors. It is not currently known how bradykinin behaves in less severe phases of CHF controlled by long-term ACE inhibitor treatment. We studied 10 male patients with clinically stable chronic CHF [New York Heart Association (NYHA) class II] on long-term ACE inhibitor treatment and 10 normal sex- and age-matched control subjects. High performance liquid chromatography/radioimmunoassay methods were used to evaluate plasma levels of bradykinin in relation to an array of parameters of endothelial function, coagulation and inflammation before and after stimuli of forearm arterial occlusion and physical exercise. CHF patients had higher levels of bradykinin (P = 0.008), activated factor XII (P = 0.049), interleukin-6 (P = 0.050) and tumour necrosis factor receptor II (sTNFRII) (P = 0.026) than controls. Arterial occlusion and exercise significantly increased bradykinin and von Willebrand factor levels in controls but not in CHF patients. The increase in brachial artery diameter after arterial occlusion was less in CHF patients (P = 0.036) and inversely related to baseline plasma levels of bradykinin (r = -0.855, P = 0.002) and sTNFRII (r = -0.780, P = 0.008). NYHA class II CHF patients during long-term treatment with ACE inhibitors have increased bradykinin levels and signs of inflammation. They are unable to respond adequately to stimuli of ischaemia and physical exercise which both require vasodilation.

The alpha1-adrenergic blocker urapidil improves contractile function in patients 3 months after coronary stenting: a randomized, double-blinded study.

BACKGROUND: The recovery of left ventricular function (LVF) after revascularization takes time. alpha-Adrenergic blockade acutely improves coronary blood flow and LVF, whereas the effects of more prolonged alpha-adrenergic blockade on LVF recovery after stenting are unknown. METHODS: In 32 patients (age 58 +/- 12 y) with an 82% +/- 6% stenosis, ejection fraction (EF) and systolic thickening (%Th) were measured by transthoracic echocardiography before and 30 minutes to 2 hours after revascularization. In a double-blinded protocol, either 200 microg/kg urapidil or placebo was given intravenously, and LVF was measured 10 minutes later. Two hours later, oral treatment with 30 mg/d drug or placebo was started, and LVF measured again after 24 hours and 3 months. RESULTS: Before revascularization, EF was 49.4% +/- 8.5% (+/-SD) and 51.3% +/- 8.8% in the urapidil-treated and the placebo groups, respectively. Thirty minutes to 2 hours after coronary stenting, EF was unchanged. After intravenous drug administration, EF increased to 56.5% +/- 9.7%). At 24 hours and 3 months after revascularization, EF became 59.5% +/- 7.9% and 59.6% +/- 8.2% in the urapidil-treated group, respectively, whereas EF in the placebo group did not change (50.4% +/- 5.7% and 49.7% +/- 4.9%, respectively). Revascularization did not acutely improve %Th. Intravenous urapidil improved %Th from 31.4% +/- 17.6% to 44.2% +/- 11.6%, whereas there was no change in the placebo group. At 3 months, %Th was 49.5% +/- 12.9% in the urapidil-treated group and 39.7% +/- 8.9% in the placebo group. CONCLUSIONS: These data suggest that long-term alpha-adrenergic blockade might improve LVF at midterm after coronary revascularization.