The American journal of medicine
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Digitalis and diuretics constitute conventional therapy of congestive heart failure, but systemic vasodilators offer an innovative approach in acute and chronic heart failure of decreasing increased left ventricular systolic wall tension (ventricular afterload) by reducing aortic impedance and/or by reducing cardiac venous return. Thus, vasodilators increase cardiac output (CO) by diminishing peripheral vascular resistance (PVR) and/or decrease increased left ventricular end-diastolic pressure (LVEDP) (ventricular preload) by diminishing venous tone. Concomitantly, there is reduction of myocardial oxygen demand, thereby reliably reducing angina pectoris in coronary disease, and potentially limiting infarct size and ischemia provided systemic arterial pressure remains normal. ⋯ Mechanical counterpulsation aids nitroprusside in acute myocardial infarction. The 30-minute venodilator action of sublingual nitroglycerin is extended for 4 to 6 hours by cutaneous nitroglycerin ointment, by sublingual and oral isosorbide dintrate, and by oral pentaerythritol tetranitrate and sustained-release nitroglycerin capsules. Ambulatory oral vasodilator therapy is provided by long-acting nitrates (relieve pulmonary congestion); hydralazine (improves fatigue); prazosin alone, combined nitrate-hydralazine combined prazosin-hydralazine (improve both dyspnea and fatigue).
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Increased left ventricular filling pressure and reduced cardiac output are two major hemodynamic deficits in pump failure. In patients with chronic heart failure, consequences of these hemodynamic deficits and diminished cardiac reserve are manifested initially during stress and eventually at rest. ⋯ These data suggest improved left ventricular performance with a combination of nitrates and hydralazine. Exercise hemodynamics improved in some patients, suggesting that such vasodilator therapy may be beneficial in chronic heart failure.
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Comparative Study
Hemodynamic responsiveness to short- and long-acting vasodilators in left ventricular failure.
Vasodilators acutely reduce afterload and improve hemodynamics in congestive heart failure. Intravenous nitroprusside reduces left ventricular filling pressure and increases cardiac output while modestly reducing blood pressure and not changing heart rate in patients with heart failure in whom this response is characteristic. Comparably reduced blood pressure during nitroprusside infusion in normal subjects or hypertensive patients without failure results in a decrease in cardiac output and tachycardia. ⋯ The quinazoline derivatives, trimazosin and prazosin, are also effective vasodilators, which act on both arteries and veins in patients with congestive heart failure. The hemodynamic response to vasodilators is influenced by the underlying hemodynamic status, as the change in cardiac output is directly related to base line ventricular filling pressure as well as systemic vascular resistance, and inversely related to the base line cardiac output. Response to vasodilators does not appear to be altered by age, diabetes, acute myocardial infarction or the cause of congestive myocardiopathy.