Herz
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Review
[Value of aldosterone receptor blockade in diuretic therapy of patients with chronic heart failure].
All forms of chronic heart failure (high-output and low-output failure) are accompanied by an "arterial underfilling" inducing the activation of various neurohumoral systems (renin-angiotensin-aldosterone system, sympathic nervous system, non-osmotic stimulation of vasopressin). Elevated levels of those neurohormones detrimentally modulate renal function. Subsequently, renal salt and volume retention occurs leading to the main symptoms of heart failure, edema formation and dyspnea. ⋯ In conclusion, diuretic therapy of patients with congestive heart failure is effective to relieve symptoms and, presumably, to prolong life. As renal function and pharmacokinetics and -dynamics of diuretics are changed in heart failure, diuretic treatment has to be adapted to provide optimal treatment. Increased levels of aldosterone appear to play an important role in diuretic-induced hypokalemia, and in the progression of heart and renal failure. Thus, aldosterone receptor antagonists should be used in the treatment of heart failure more frequently.
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Once contraindicated, beta-blockers have become an established, evidence-based, recommended treatment concept in chronic heart failure during the last years. ⋯ The increased activation of the adrenergic system in heart failure syndrome, which leads to transmission of several adverse biological signals to myocytes through adrenergic receptors, provides the rationale for the use of beta-blockers in patients with chronic heart failure. Long-term treatment with different types of beta-blockers addictive to an ACE-inhibitor and diuretics results in normalization of left ventricular shape, an improvement of left ventricular function, and a reduction of hospitalization rate for heart failure. Hemodynamic and clinical improvement is independent of etiology and severity of left ventricular dysfunction. THERAPEUTICAL RECOMMENDATIONS ACCORDINGS TO STUDIES: Adequately powered clinical trials (CIBIS II, MERIT-HF, COPERNICUS) testing different types of beta-blockers (bisoprolol, metoprolol, carvedilol) clearly demonstrated that total mortality and the incidence of sudden cardiac death were significantly reduced in heart failure patients by each of these agents. On the basis of all available evidence, all patients with chronic, stable heart failure (NYHA class II-IV) and with impaired left ventricular function (LVEF < 45%) should receive one of the three above mentioned beta-blockers. Protective effects of beta-blockers in heart failure comprise decrease in heart rate, a decrease of energy consumption, antifibrillatory effects, protection against adrenergic overactivation, and hence, inhibition of myocardial cell necrosis. Moreover, several beta-blockers induce an up-regulation of beta-receptors leading to an improvement of contractility during long-term treatment. It should be mentioned that even a low dosage of beta-blockers exert negative inotropic effects and may lead to a deterioration of hemodynamics and heart failure symptoms in patients with heart failure. The patients treated should be informed that the success of the "paradoxical intervention" will be obvious until 2-3 months after initiation of additional beta-blocker therapy. Beta-blocker treatment for heart failure should be started in stable patients with a very low initial dosage and then up-titrated to the maximal tolerated dosage and should be continued indefinitely. Mortality reduction by beta-blockade in heart failure is no class effect. So far, beneficial effects could only be demonstrated for lipophilic agents. Whether the non-selective beta-blocker carvedilol with additional properties has advantages over the beta-1-selective metoprolol is currently investigated in the COMET (Carvedilol or Metoprolol European Trial) study. Despite the impressive effects in terms of morbidity and mortality reduction, the transfer of these benefits to the clinical practice setting is difficult, with international data showing only 10% of patients with heart failure being treated.
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Cheyne-Stokes respiration is a breathing disorder characterized by recurrent central sleep apneas, mainly during sleep, alternating with a crescendo-decrescendo pattern of tidal volume. PATHOPHYSIOLOGY AND PROGNOSIS: The pathophysiology of Cheyne-Stokes respiration, involving the cardiovascular, pulmonary and sympathetic nervous systems, is still not well understood. Although 50% of moderate to severe congestive heart failure patients suffer from significant Cheyne-Stokes respiration, studies been undertaken to determine the prevalence of this phenomenon and its implications regarding patients' life expectancy and quality of life were conducted only in recent years. Other studies suggest that Cheyne-Stokes respiration has a negative prognostic value upon congestive heart failure patients. ⋯ This review summarizes some of the current knowledge regarding Cheyne-Stokes respiration pathophysiology, prevalence, prognostic implication and available treatments.