Organic compounds -- part of the class 532-570 series – Organic compounds – Heterocyclic carbon compounds containing a hetero ring...
Reexamination Certificate
2002-04-15
2004-01-27
Owens, Amelia (Department: 1625)
Organic compounds -- part of the class 532-570 series
Organic compounds
Heterocyclic carbon compounds containing a hetero ring...
C549S468000
Reexamination Certificate
active
06683195
ABSTRACT:
BACKGROUND OF THE INVENTION
Congestive heart failure (CHF) is a disease affecting approximately 2% of the population of the United States (Sami, M. H. [1991
] J. Clin. Pharmacol.
31:1081). Despite advances in the diagnosis and treatment of CHF, the prognosis remains poor with a 5-year mortality rate higher than 50% from the time of diagnosis (McFate Smith, W. [1985
] Am. J. Cardiol.
55:3A; McKee, P. A., W. P. Castelli, P. M. McNamara, W. B. Kannel [1971
] N. Engl. J. Med.
285:1441). In patients with CHF, the rate of survival is lowest in those patients with severe depression of left ventricular function and patients who have frequent ventricular arrhythmias. Patients with ventricular arrhythmias and ischemic cardiomyopathy have an increased risk of sudden death. The presence of ventricular tachycardia in patients with severe CHF results in a three-fold increase in sudden death compared to those without tachycardia (Bigger, J. T., Jr. [1987
] Circulation
75(suppl.IV):28). Because of the high prevalence of sudden unexpected death in patients with CHF, there has been a growing interest in the prognostic significance of arrhythmias in these patients.
Several compounds have been used in the management of cardiac arrhythmias in patients with congestive heart failure. Unfortunately, anti-arrhythmic drug therapy has been disappointing. The efficacy of anti-arrhythmic drugs markedly decreases as left ventricular function declines, such that only a small fraction of patients with CHF are responsive to anti-arrhythmic therapy. No anti-arrhythmic drug has prevented sudden death in patients with CHF and there is even a question of increased mortality associated with certain anti-arrhythmic drugs (the CAST investigators [1989
] N. Engl. J. Med.
321:406).
Scientists define tachycardia and ventricular fibrillation as being of multiple nature. It now seems clear, and is accepted in the art, that re-entry is the underlying mechanism to most sustained arrhythmias. Prolonging ventricular repolarization as a means of preventing ventricular arrhythmias has consequently received renewed attention. This points to Class-III agents as drugs of choice in the treatment of arrhythmias. A Class-III agent, as referred to herein, is an agent which is classified as such in the Vaughan-Williams classification of anti-arrhythmic drugs. A Class-III agent exerts its primary anti-arrhythmic activity by prolonging cardiac action potential duration (APD), and thereby the effective refractory period (ERP), with no effect on conduction. These electrophysiological changes, which are brought about by blockade of cardiac potassium channels, are well known in the art. Because the blockade of cardiac potassium channels is not associated with depression of the contractile function of the heart, Class-III agents are particularly attractive for use in patients with CHF. Unfortunately, the existing Class-III agents are limited in their utility by additional pharmacological activities, lack of good oral bioavailability, or a poor toxicity profile. Two Class III agents currently marketed are bretylium (i.v. only) and amiodarone (i.v. and p.o.).
Amiodarone is an anti-arrhythmic agent with complex electrophysiological activity including Class-I (sodium channel), Class-II (beta-receptor), Class-III (potassium channel), and even Class-IV (calcium channel) properties, thus acting on both cardiac conduction and cardiac repolarization parameters (Charlier et al., [1969
] Cardiologia,
54:82; Singh et al., [1970
] Br. J. Pharmacol.
39:657; Rosenbaum et al., [1974
] Am. J. Cardiol.
34:215; Rosenbaum et al., [1976
] Am. J. Cardiol.
38:934). The corresponding EKG effects are reduction in heart rate (HR) and prolongation of the PR, QRS and QT intervals (Naccarelli et al., [1985
] Pharmacotherapy,
6:298). Because of these combined electrophysiological properties, amiodarone is effective against ventricular and supra-ventricular arrhythmias, including atrial fibrillation and flutter, paroxysmal supraventricular tachycardia, ventricular premature beats (VPB), sustained and non-sustained ventricular tachycardia (VT), and ventricular fibrillation (VF) (Naccarelli et al., [1985
] Pharmacotherapy,
6:298; Kerr et al., [1996], In
Cardiovascular Drug Therapy,
2
nd
ed., Editor: Messerli, F. H. W. B. Saunders Co. pp. 1247-1264).
Amiodarone is one of the very few drugs that actually reduce mortality rates in high-risk patients (post-myocardial infarction patients and patients with congestive heart failure)(Cairns et al., [1997
] Lancet,
349:675; Julian et al., [1997
] Lancet,
349:667; Amiodarone Trials Meta-Analysis Investigators: Effect of Prophylactic Amiodarone on Mortality After Acute Myocardial Infarction and in Congestive Heart Failure: Meta-Analysis of Individual Data from 6500 Patients in Randomised Trials.
Lancet,
1997, 350, 1417-24). Unfortunately, because of its life-threatening side-effects and the substantial management difficulties associated with its use, amiodarone is indicated only for life-threatening recurrent ventricular arrhythmias when these have not responded to documented adequate doses of other available anti-arrhythmics or when alternative agents are not tolerated (Vrobel et al., [1989
] Progr. In Cardiovasc. Dis.,
31:393). The pharmacokinetic properties of amiodarone are characterized by slow absorption, moderate bioavailability, high lipophilicity, and a very large volume of distribution (60 L/kg on average). Its elimination is almost exclusively hepatic and its clearance rate is very slow. Its terminal elimination half-life is 53 days (Naccarelli et al., [1985
] Pharmacotherapy,
6:298). As a consequence, upon long-term administration, amiodarone accumulates in virtually every organ including poorly perfused tissues such as the lens. The onset of its anti-arrhythmic activity may take days, or even weeks to appear. The onset of activity can be shortened with the administration of intravenous loading doses, but is still too long (Kowey et al., [1995
] Circulation,
92:3255). Cardioprotective agents and methods which employ amiodarone in synergistic combination with vasodilators and beta blockers have been described for use in patients with coronary insufficiency (U.S. Pat. No. 5,175,187). Amiodarone has also been described for reducing arrhythmias associated with CHF as used in combination with anti-hypertensive agents, e.g., (S)-1-[6-amino-2-[[hydroxy(4-phenylbutyl)phosphinyl]oxyl]-L-proline (U.S. Pat. No. 4,962,095) and zofenopril (U.S. Pat. No. 4,931,464). However, amiodarone is a difficult drug to manage because of its numerous side effects, some of which are serious.
Amiodarone has several potentially fatal toxicities, the most important of which is pulmonary toxicity (hypersensitivity pneumonitis or interstitial/alveolar pneumonitis). Pulmonary toxicity is reversible if the progression of the symptoms is recognized on time, but is still fatal 10% of the time (Kerr et al., [1996], In
Cardiovascular Drug Therapy,
2
nd
ed., Editor: Messerli, F. H. W. B. Saunders Co. pp. 1247-1264; Vrobel et al., [1989
] Progr. In Cardiovasc. Dis.,
31:393). Liver injury is also common but usually mild, although liver disease can occur and has been fatal in some cases. Even though toxicity is usually reversible upon cessation of drug administration, the real danger with amiodarone comes from its slow kinetics, especially slow elimination. For example, although the frequency of pro-arrhythmic events associated with amiodarone appears to be less than with other anti-arrhythmic agents (2 to 5%), the effects are prolonged when they occur. Even in patients at high risk of sudden death, in whom the toxicity of amiodarone is an acceptable risk, amiodarone poses major management problems that could be life-threatening, so every effort is made to utilize alternative agents first.
The most serious long-term toxicity of
Druzgala Pascal
Milner Peter G.
ARYx Therapeutics
Owens Amelia
Saliwanchik Lloyd & Saliwanchik
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