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The purpose of this study in patients with chronic stable coronary artery disease treatable by percutaneous coronary intervention (PCI) is to evaluate the long-term efficacy and safety of the orally taken selective I(f)-inhibitor Ivabradine (Procoralan®, Servier Switzerland) with regard to the promotion of collateral growth.
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Coronary artery disease (CAD) is the leading cause of death in industrialized countries. Current therapies for restoration of coronary flow are percutaneous coronary intervention (PCI) or surgical revascularization. However, inherent to them are procedure-related risks and the fact that CAD progression is not prevented. Additionally, up to one fourth of all CAD patients are not amenable to standard revascularization therapies. Thus, there is a need for alternative therapies. Coronary collaterals as natural bypasses are anastomoses without an intervening capillary bed between portions of the same coronary artery or between different coronary arteries. The coronary collateral circulation is prevalent in humans and in CAD the amount of collateral flow is directly related to infarct size, all-cause- and cardiac mortality. Thus, the goal is to promote collateral function in the sense of prophylactic myocardial salvage.
Coronary (collateral) blood flow occurs almost entirely during diastole. Fluid shear stress (FSS) is the driving force in the formation, promotion and maintenance of collaterals (i.e. arteriogenesis). It is the product of blood viscosity and shear rate, the latter being the fluid velocity change between different fluid layers which is related to the fluid velocity at the endothelium. Prolongation of diastole via reduction of resting heart rate (RHR) is naturally equal to extension of shear stress at the endothelium. Bradycardia is likely to be the key factor for augmented collateral function: In several animal models, an inverse relation between heart rate and collateral function was found. We have recently confirmed this finding investigating collateral function measurements in normal coronary arteries of our patient population.
The fact that beta blockers depress contractility and unmask beta-adrenergic coronary vasoconstriction has prompted the development of selective I(f)-inhibitors. To date, ivabradine is the only clinically available specific inhibitor of the pacemaker current in the sinuatrial node (called "funny" current, because of permeability for mixed ions and activation by hyperpolarization instead of depolarization, I(f)). It acts as a pure heart rate lowering agent without affecting blood pressure, myocardial contractility, intra-cardiac conduction, or ventricular repolarization. In contrast to beta blockers or calcium channel blockers, it mimics physiological bradycardia and is therefore appropriate for the purpose of this study. By bradycardization in CAD, ischemia is targeted via reduction of myocardial oxygen demand and increase of oxygen supply without negative inotropic, coronary vasoconstrictive, or metabolic effects. In terms of anti-anginal efficacy, ivabradine has been found to be as effective as atenolol or amlodipine.
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43 participants in 2 patient groups
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Data sourced from clinicaltrials.gov
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