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The chemical structure of adenosine

Adenosine is a nucleoside comprised of adenine attached to a ribose (ribofuranose) moiety via a β-N9-glycosidic bond.

Adenosine plays an important role in biochemical processes, such as energy transfer - as adenosine triphosphate (ATP) and adenosine diphosphate (ADP) - as well as in signal transduction as cyclic adenosine monophosphate, cAMP.

If is attached to a deoxyribose ring, it is known as a deoxyadenine adenosine.

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Pharmacological effects

Action on the heart

When administered intravenously, adenosine causes transient heart block in the AV node of the heart. It also causes endothelial dependent relaxation of smooth muscle as is found inside the artery walls. This causes dilatation of the "normal" segments of arteries where the endothelium is not covered by atherosclerotic plaque. This feature allows physicians to use adenosine to test for blockages in the coronary arteries, by exaggerating the difference between the normal and abnormal segments.

In individuals suspected of suffering from a supraventricular tachycardia (SVT), adenosine is used to help identify the rhythm. Certain SVTs can be successfully terminated with adenosine. This includes any re-entrant arrhythmias that require the AV node for the re-entry (e.g., AV reentrant tachycardia (AVRT), AV nodal reentrant tachycardia (AVNRT). In addition, atrial tachycardia can sometimes be terminated with adenosine.

Fast rhythms of the heart that are confined to the atria (e.g., atrial fibrillation, atrial flutter) or ventricles (e.g., monomorphic ventricular tachycardia) and do not involve the AV node as part of the re-entrant circuit are not typically affected by adenosine.

Because of the effects of adenosine on AV node-dependent SVTs, adenosine is considered a class V antiarrhythmic agent.

The pharmacological effects of adenosine are blunted in individuals who are taking methylxanthines (e.g., caffeine (found in coffee) and theophylline (found predominantly in tea)).

Dosage

When given for the evaluation or treatment of an SVT, the initial dose is 6 mg, given as a fast IV push. Due to adenosine's extremely short half-life, start the IV line as proximal to the heart as possible, such as the antecubital fossa. If this has no effect (e.g., no evidence of transient AV block), a 12mg dose can be given 1-2 minutes after the first dose. If the 12mg dose has no effect, a second 12mg dose can be administered 1-2 minutes after the previous dose. Some clinicians may prefer to administer a higher dose (typically 18 mg), rather than repeat a dose that apparently had no effect. When given to dilate the arteries, such as in a "stress test", the dosage is typically 0.14 mg/kg/min, administered for 4 or 6 minutes, depending on the protocol.

Consider increasing the recommended dose in patients on theophylline since methylxanthines prevent binding of adenosine at receptor sites. Consider decreasing the dose in patients on dipyridamole (Persantine) and diazepam (Valium) because adenosine potentiates the effects of these drugs.

Contraindications

Poison/Drug induced tachycardia Asthma 2nd or 3rd degree heart blocks Afib/flutter, Ventricular tachycardia, Sick sinus syndrome

Side effects

Many individuals experience facial flushing, lightheadedness, diaphoresis, or nausea after administration of adenosine. These symptoms are transitory, usually lasting less than one minute.

Metabolism

When adenosine enters the circulation, it is broken down by adenosine deaminase, which is present in red cells and the vessel wall.

Dipyridamole, an inhibitor of adenosine deaminase, allows adenosine to accumulate in the blood stream. This causes an increase in coronary vasodilatation.

See also

External links

de:Adenosin es:Adenosina fr:Adénosine ko:아데노신 lt:Adenozinas pt:Adenosina fi:Adenosiini sv:Adenosin

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