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Benzofuran Derivatives (benzofuran + derivative)

Distribution by Scientific Domains
Medical Sciences71%
Chemistry28%

Selected Abstracts

Synthesis of Phenol, Aromatic Ether, and Benzofuran Derivatives by Copper-Catalyzed Hydroxylation of Aryl Halides,

ANGEWANDTE CHEMIE, Issue 46 2009
Dongbing Zhao
Gruppentausch: Die kupferkatalysierte Synthese von Phenolen aus Arylhalogeniden gelang unter relativ milden Reaktionsbedingungen. Alkylarylether und Benzofurane ließen sich glatt durch Eintopf-Dominoreaktionen herstellen, die auf einer Hydroxylierung von Aryliodiden beruhten (siehe Schema). [source]

Benzofuran derivatives and the thyroid

CLINICAL ENDOCRINOLOGY, Issue 1 2009
T. S. Han
Summary Amiodarone and dronedarone are two clinically important benzofuran derivatives. Amiodarone has been used widely for treating resistant tachyarrhythmias in the past three decades. However amiodarone and its main metabolically active metabolite desethylamiodarone can adversely affect many organs, including the thyroid gland. Amiodarone-induced thyroid disorders are common and often present as a management challenge for endocrinologists. The pathogenesis of amiodarone-induced thyroid dysfunction is complex but the inherent effects of the drug itself as well as its high iodine content appear to play a central role. The non-iodinated dronedarone also exhibits anti-arrhythmic properties but appears to be less toxic to the thyroid. This review describes the biochemistry of benzofuran derivatives, including their pharmacology and the physiology necessary for understanding the cellular mechanisms involved in their actions. The known effects of these compounds on thyroid action are described. Recommendations for management of amiodarone-induced hypothyroidism and thyrotoxicosis are suggested. Dronedarone appears to be an alternative but less-effective anti-arrhythmic agent and it does not have adverse effects on thyroid function. It may have a future role as an alternative agent in patients being considered for amiodarone therapy especially those at high risk of developing thyroid dysfunction but not in severe heart failure. [source]

Dronedarone: A New Treatment for Atrial Fibrillation

JOURNAL OF CARDIOVASCULAR ELECTROPHYSIOLOGY, Issue 11 2008
JAMES C. LAUGHLIN M.D.
Dronedarone is a benzofuran derivative pharmacologically related to amiodarone but without the iodine moiety. It is designed for the treatment of atrial fibrillation and atrial flutter. Historically, amiodarone has proved most effective in maintaining sinus rhythm and has been used safely in patients with advanced heart failure. However, its use has been limited by cumulative and often irreversible organ toxicity, especially in younger patients. Dronedarone was developed in an effort to provide equivalent efficacy and safety with less toxicity. Dronedarone has proved efficacious without toxic or proarrhythmic effects and has minimal side effects, but remaining concerns exist regarding its use in patients with advanced heart failure. [source]

The Novel Antiarrhythmic Drug Dronedarone: Comparison with Amiodarone

CARDIOVASCULAR THERAPEUTICS, Issue 3 2005
Sven Kathofer
ABSTRACT Dronedarone is a noniodinated benzofuran derivative that has been developed to overcome the limiting iodine-associated adverse effects of the commonly used antiarrhythmic drug, amiodarone. It displays a wide cellular electrophysiological spectrum largely similar to amiodarone, inhibiting the potassium currents Ikr, IKs, IKI, IKACh, and Isus, as well as sodium currents and L-type calcium currents in isolated cardiomyocytes. In addition, dronedarone exhibits antiadrenergic properties. In vivo, dronedarone has been shown to be more effective than amiodarone in several arrhythmia models, particularly in preventing ischemia- and reperfusion-induced ventricular fibrillation and in reducing mortality. However, an increased incidence of torsades de pointes with dronedarone in dogs shows that possible proarrhythmic effects of dronedarone require further evaluation. The clinical trails DAFNE, EURIDIS, and ADONIS indicated safety, antiarrhythmic efficacy and low proarrhythmic potential of the drug in low-risk patients. In contrast, the increased incidence of death in the dronedarone group of the discontinued ANDROMEDA trial raises safety concerns for patients with congestive heart failure and moderate to severe left ventricular dysfunction. Dronedarone appears to be effective in preventing relapses of atrial fibrillation and atrial flutter. Torsades de pointes, the most severe adverse effect associated with amiodarone, has not yet been reported in humans with dronedarone. Unlike amiodarone, dronedarone had little effect on thyroid function and hormone levels in animal models and had no significant effects on human thyroid function in clinical trials. In conclusion, dronedarone could be a useful drug for prevention of atrial fibrillation and atrial flutter relapses in low-risk patients. However, further experimental studies and long-term clinical trials are required to provide additional evidence of efficacy and safety of dronedarone. [source]

Analysis of benzofuran derivatives using electrospray ionization ion trap and electrospray ionization quadrupole time-of-flight mass spectrometry

RAPID COMMUNICATIONS IN MASS SPECTROMETRY, Issue 8 2010
Zhi-Jun Wu
First page of article [source]

Benzofuran derivatives and the thyroid

CLINICAL ENDOCRINOLOGY, Issue 1 2009
T. S. Han
Summary Amiodarone and dronedarone are two clinically important benzofuran derivatives. Amiodarone has been used widely for treating resistant tachyarrhythmias in the past three decades. However amiodarone and its main metabolically active metabolite desethylamiodarone can adversely affect many organs, including the thyroid gland. Amiodarone-induced thyroid disorders are common and often present as a management challenge for endocrinologists. The pathogenesis of amiodarone-induced thyroid dysfunction is complex but the inherent effects of the drug itself as well as its high iodine content appear to play a central role. The non-iodinated dronedarone also exhibits anti-arrhythmic properties but appears to be less toxic to the thyroid. This review describes the biochemistry of benzofuran derivatives, including their pharmacology and the physiology necessary for understanding the cellular mechanisms involved in their actions. The known effects of these compounds on thyroid action are described. Recommendations for management of amiodarone-induced hypothyroidism and thyrotoxicosis are suggested. Dronedarone appears to be an alternative but less-effective anti-arrhythmic agent and it does not have adverse effects on thyroid function. It may have a future role as an alternative agent in patients being considered for amiodarone therapy especially those at high risk of developing thyroid dysfunction but not in severe heart failure. [source]