PMID: 2481788Jan 1, 1989Paper

Celiprolol and risk factor reversal in hypertension.

Journal of Cardiovascular Pharmacology
S H Taylor

Abstract

beta-Blockers reduce hypertension effectively and safely. However, their overall efficacy is a balance between their influence on blood pressure and their influence on other important risk factors. Thus, whereas a drug may ameliorate the primary blood pressure marker of the syndrome, this effect may be negated by enhancement of aggressive cofactors. The evolution of the beta-blockers exemplifies how this potentially dangerous conflict may be counteracted. The latest "third-generation" agents, such as celiprolol, not only achieve their primary objective of lowering blood pressure, but also have the potential to simultaneously reverse some of the deleterious cofactors. For example, celiprolol reduces the threat of atheroma by lowering serum cholesterol, and enhances the efficacy of myocardial oxygen utilization in heart failure by reducing plasma triglyceride metabolism. Its ability to reduce fibrinogen and its lack of effect on glucose metabolism are additional positive factors. Celiprolol also provides the combined pharmacodynamic advantages of vasodilatation and inotropic support of the heart, and it attenuates the myocardial oxygen-wasting effects of sympathoadrenal stimulation. These attributes all make a positive contributi...Continue Reading

Citations


❮ Previous
Next ❯

Related Concepts

Related Feeds

Cachexia & Brown Fat

Cachexia is a condition associated with progressive weight loss due to severe illness. In cancer patients, it is proposed to occur as a result of tumor-induced energy wasting. Several proteins have been implicated in browning and depletion of white adipose tissue. Here is the latest research on cachexia and brown fat.

Atherosclerosis Disease Progression

Atherosclerosis is the buildup of plaque on artery walls, causing stenosis which can eventually lead to clinically apparent cardiovascular disease. Find the latest research on atherosclerosis disease progression here.

Antiarrhythmic Agents: Mechanisms of Action

Understanding the mechanism of action of antiarrhythmic agents is essential in developing new medications as treatment of cardiac arrhythmias is currently limited by the reduced availability of safe and effective drugs. Discover the latest research on Antiarrhythmic Agents: Mechanism of Action here.

Cardiac Cachexia

Cardiac cachexia is a syndrome associated with the progressive loss of muscle and fat mass. It most commonly affects patients with heart failure and can significantly decrease the quality of life and survival in these patients. Here is the latest research on cardiac cachexia.

Antihypertensive Agents: Mechanisms of Action

Antihypertensive drugs are used to treat hypertension (high blood pressure) which aims to prevent the complications of high blood pressure, such as stroke and myocardial infarction. Discover the latest research on antihypertensive drugs and their mechanism of action here.