Propranolol heart failure with

BETA-BLOCKERS LIDOCAINE 1. Risk of bradycardia (occasionally severe), 1 BP and heart failure with intravenous lidocaine 2. Risk of lidocaine toxicity due to t plasma concentrations of lidocaine, particularly with propranolol and nadolol 3. t plasma concentrations of propranolol and possibly some other beta-blockers 1. Additive negative inotropic and chronotropic effects 2. Uncertain, but possibly a combination of beta-blocker-induced reduction in hepatic blood flow (due to 1 cardiac output) and inhibition of metabolism of lidocaine 3. Attributed to inhibition of metabolism by lidocaine 1. Monitor PR, BP and ECG closely watch for development of heart failure when intravenous lidocaine is administered to patients on beta-blockers 2. Watch for lidocaine toxicity 3. Be aware. Regional anaesthetics should be used cautiously in patients with bradycardia. Beta-blockers could cause dangerous hypertension due to stimulation of alpha-receptors if epinephrine is used with focal anaesthetic... 

The ACC/AHA recommends that P-blockers be initiated in all patients with NYHA FC I to IV or ACC/AHA stages B through D heart failure if clinically stable.1 To date, only three p-blockers have been shown to reduce mortality in systolic HF, including the selective prantagonists bisoprolol and metoprolol succinate, and the non-selective pr, p2-, and arantagonist carvedilol.29 33 The positive findings should not be extrapolated to be indicative of a class effect, as bucindolol did not exhibit a beneficial effect on mortality when studied for HF, and there is limited information with propranolol and atenolol. 

Chadda K, Goldstein S, Byington R. Effect of propranolol after acute myocardial infarction in patients with congestive heart failure. Circulation 1986 73 503-10. 

Propranolol and nadolol also have been used successfully in combination with certain calcium entry blockers, particularly nifedipine, for the treatment of secondary angina. Caution should be used, however, when combining a p-blocker and a calcium channel blocker, such as verapamil or diltiazem, since the negative inotropic and chronotropic effects of this combination may lead to severe bradycardia, arteriovenous nodal block, or decompensated congestive heart failure. 

Excessive catecholamine action is an important aspect of the pathophysiology of hyperthyroidism, especially in relation to the heart (see Chapter 38). The 13 antagonists are beneficial in this condition. The effects presumably relate to blockade of adrenoceptors and perhaps in part to the inhibition of peripheral conversion of thyroxine to triiodothyronine. The latter action may vary from one 13 antagonist to another. Propranolol has been used extensively in patients with thyroid storm (severe hyperthyroidism) it is used cautiously in patients with this condition to control supraventricular tachycardias that often precipitate heart failure. 

Propranolol was the first blocker shown to be effective in hypertension and ischemic heart disease. Propranolol has now been largely replaced by cardioselective blockers such as metoprolol and atenolol. All B-adrenoceptor-blocking agents are useful for lowering blood pressure in mild to moderate hypertension. In severe hypertension, blockers are especially useful in preventing the reflex tachycardia that often results from treatment with direct vasodilators. Beta blockers have been shown to reduce mortality after a myocardial infarction and some also reduce mortality in patients with heart failure they are particularly advantageous for treating hypertension in patients with these conditions (see Chapter 13). 

Propranolol Nonselective competitive antagonist at adrenoceptors Decreased heart rate, cardiac output, and blood pressure decreases myocardial oxygen demand Prophylaxis of angina for other applications, see Chapters 10, 11, and 13 Oral and parenteral, 4-6 h duration of action Toxicity Asthma, atrioventricular block, acute heart failure, sedation Interactions Additive with all cardiac depressants... 

In patients with heart failure, lidocaine s volume of distribution and total body clearance may both be decreased. Thus, both loading and maintenance doses should be decreased. Since these effects counterbalance each other, the half-life may not be increased as much as predicted from clearance changes alone. In patients with liver disease, plasma clearance is markedly reduced and the volume of distribution is often increased the elimination half-life in such cases may be increased threefold or more. In liver disease, the maintenance dose should be decreased, but usual loading doses can be given. Elimination half-life determines the time to steady state. Thus, although steady-state concentrations may be achieved in 8-10 hours in normal patients and patients with heart failure, 24-36 hours may be required in those with liver disease. Drugs that decrease liver blood flow (eg, propranolol, cimetidine) reduce lidocaine clearance and so increase the risk of toxicity unless infusion rates are decreased. With infusions lasting more than 24 hours, clearance falls and plasma concentrations rise. Renal disease has no major effect on lidocaine disposition. 

Propranolol 13- Adrenoceptor blockade Direct membrane effects (sodium channel block) and prolongation of action potential duration slows SA node automaticity and AV nodal conduction velocity Atrial arrhythmias and prevention of recurrent infarction and sudden death Oral, parenteral duration 4-6 h Toxicity Asthma, AV blockade, acute heart failure Interactions With other cardiac depressants and hypotensive drugs... 

Horses with congestive heart failure (CHF) and AF have a poor prognosis for conversion to sinus rhythm (Reef et al 1988). Digitalization is the treatment of choice for horses with AF secondary to CHF to reduce the ventricular response rate and, therefore, to optimize ventricular filling. Propranolol may also be used to reduce the... 

Patients with compensated heart failure often have increased sympathetic nervous activity as a compensatory mechanism. Propranolol can precipitate acute exacerbation of CHF in such patients. 

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