Pharmacology of Ranolazine
Indication | For the treatment of chronic angina. It should be used in combination with amlodipine, beta-blockers or nitrates. |
Pharmacodynamics | Ranolazine has antianginal and anti-ischemic effects that do not depend upon reductions in heart rate or blood pressure. It is the first new anti-anginal developed in over 20 years. |
Mechanism of action | The mechanism of action of ranolazine is unknown. It does not increase the rate-pressure product, a measure of myocardial work, at maximal exercise. In vitro studies suggest that ranolazine is a P-gp inhibitor. Ranolazine is believed to have its effects via altering the trans-cellular late sodium current. It is by altering the intracellular sodium level that ranolazine affects the sodium-dependent calcium channels during myocardial ischemia. Thus, ranolazine indirectly prevents the calcium overload that causes cardiac ischemia. |
Absorption | Absorption is highly variable. After oral administration of ranolazine as a solution, 73% of the dose is systemically available as ranolazine or metabolites. The bioavailability of oral ranolazine relative to that from a solution is 76%. |
Volume of distribution | Not Available |
Protein binding | 62% |
Metabolism | Hepatic, metabolized mainly by CYP3A and to a lesser extent by CYP2D6. The pharmacologic activity of the metabolites has not been well characterized. |
Route of elimination | Ranolazine is metabolized rapidly and extensively in the liver and intestine; less than 5% is excreted unchanged in urine and feces. |
Half life | 7 hours |
Clearance | Not Available |
Toxicity | In the event of overdose, the expected symptoms would be dizziness, nausea/vomiting, diplopia, paresthesia, and confusion. Syncope with prolonged loss of consciousness may develop. |
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