UMLS:C0008031 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0008031 (chest pain)
17,248 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

201Tl myocardial perfusion imaging during adenosine infusion was performed in consecutive 55 patients with suspected coronary artery disease. Adenosine was infused intravenously at a rate of 0.14 mg/kg/min for 6 minutes and a dose of 111 MBq of 201Tl was administered in a separate vein at the end of third minute of infusion. Myocardial SPECT imaging was begun 5 minutes and 3 hours after the end of adenosine infusion. For evaluating the presence of perfusion defects, 2 short axis images at the basal and apical levels and a vertical long axis image at the mid left ventricle were used. The regions with decreased 201Tl uptake were assessed semi-quantitatively. Adenosine infusion caused a slight reduction in systolic blood pressure and an increase in heart rate. The rate pressure products increased slightly (9314 +/- 2377 vs. 10360 +/- 2148, p < 0.001). Chest pain (24%) and headache (13%) were the frequent side effects. The second-degree atrioventricular block was developed in 11 of 55 (20%) patients. All symptoms and hemodynamic changes were well tolerated and disappeared within 1 or 2 minutes after discontinuing adenosine infusion. The sensitivity and specificity for the detection of patients with coronary artery disease were 100% (31/31) and 88% (7/8), respectively. 201Tl myocardial imaging during adenosine infusion was considered to be safe and useful for evaluating the patients with ischemic heart disease.
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PMID:[Thallium-201 myocardial perfusion imaging during adenosine-induced coronary vasodilation in patients with ischemic heart disease]. 145 59

Intravenous (i.v.) bolus administration of adenosine causes increased ventilation and an angina pectoris-like chest pain. Whether adenosine per se or one of its metabolites such as inosine mediates these effects is not clear. Bolus doses of adenosine, inosine, or saline were administered i.v. blindly to six volunteers. Spirometry, ECG recordings, and pain ratings were taken. Adenosine induced both an increase in tidal volume and respiration rate, a dose-dependent chest pain and, at higher doses, various degrees of atrioventricular (AV) block. None of these effects were noted after equimolar injections of inosine or saline. The findings indicate that the angina pectoris-like pain and increased ventilation is induced by adenosine per se and is not produced by adenosine metabolites.
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PMID:Intravenous adenosine but not its first metabolite inosine provokes chest pain in healthy volunteers. 169 61

Adenosine (adenine riboside), administered either as the free base or as the 5'-triphosphate (ATP) by rapid intravenous bolus, depresses atrioventricular (AV) nodal conduction, resulting in transient AV block. Adenosine is the active agent and ATP is rapidly converted to adenosine after exogenous administration. By blocking the anterograde AV nodal limb of a re-entrant circuit, adenosine 6 to 12 mg (or ATP 10 to 20 mg) converts almost all episodes of paroxysmal supraventricular tachycardia (PSVT) involving the AV node within 30 seconds of administration. This is at least equivalent in efficacy to verapamil in adults, and superior to lanatoside C in children, with a considerably more rapid onset of action. Furthermore, if a dose of adenosine is ineffective, the exceptionally short plasma half-life of the adenyl nucleosides (less than 10 sec) allows rapid upward dosage titration until PSVT is terminated. Because the induced conduction block primarily affects the AV node, adenosine is a useful diagnostic tool in patients with broad or narrow QRS complex tachycardia; it terminates arrhythmias dependent on the AV node, unmasks other supraventricular mechanisms during transient AV block, but almost always has no effect on ventricular tachycardia. Noncardiac adverse effects, i.e. flushing, dyspnoea and chest pain, may occur during acute arrhythmia termination or diagnosis with adenosine, and arrhythmias may develop; however, these effects are usually transient (lasting less than 1 minute). Adenosine has also been used to induce coronary vasodilation in patients undergoing thallium-201 single photon emission computed tomography (201Tl SPECT), 2-dimensional echocardiography or positron emission tomography to evaluate suspected coronary artery disease. Intravenous infusion of adenosine 140 micrograms/kg/min for 6 minutes was generally associated with only mild adverse effects. These usually resolved within 1 to 2 minutes of discontinuing adenosine, although occasionally patients required aminophylline and/or nitroglycerin (glyceryl trinitrate). Diagnoses based on the results of scintigraphy were of a sensitivity, specificity and predictive accuracy comparable to those achieved with exercise- or dipyridamole-201Tl SPECT. Adenosine is therefore particularly suitable for the diagnosis of tachycardias and the acute management of PSVT involving the AV node in all age groups, without the risks of cardiac arrest and hypotension associated with verapamil. Furthermore, intravenous adenosine infusion may be used to induce coronary vasodilation in patients unable to perform exercise stress tests for 201Tl scintigraphy, and is well tolerated.
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PMID:Adenosine. An evaluation of its use in cardiac diagnostic procedures, and in the treatment of paroxysmal supraventricular tachycardia. 171 62

Adenosine thallium-201 myocardial scintigraphy is a promising test for coronary artery disease detection, but its safety has not been reported in large patient cohorts. Accordingly, the tolerance and safety profile of adenosine infusion were analyzed in 607 patients (351 men, 256 women, mean age 63 +/- 11 years) undergoing this test either because of suspected coronary artery disease (Group I, n = 482) or for risk stratification early (5.2 +/- 2.8 days) after myocardial infarction (Group II, n = 125). Adenosine increased the heart rate from 74.5 +/- 14.0 to 91.8 +/- 15.9 beats/min (p less than 0.001) and decreased systolic blood pressure from 137.8 +/- 26.8 to 120.7 +/- 26.1 mm Hg (p less than 0.001). Side effects were frequent and similar in both groups. Flushing occurred in 35%, chest pain in 34%, headache in 21% and dyspnea in 19% of patients. Only 35.6% of Group I patients with chest pain during adenosine infusion had concomitant transient perfusion abnormalities, compared with 60.7% of Group II patients (p less than 0.05). First- and second-degree AV block occurred in 9.6% and 3.6% of patients, respectively, and ischemic ST changes in 12.5% of cases. Concomitance of chest pain and ischemic ST depression was uncommon (6%) but, when present, predicted perfusion abnormalities in 73% of patients. Most side effects ceased rapidly after stopping the adenosine infusion. The side effects were severe in only 1.6% of patients and in only six patients (1%) was it necessary to discontinue the infusion. No serious adverse reactions such as acute myocardial infarction or death occurred.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tolerance and safety of pharmacologic coronary vasodilation with adenosine in association with thallium-201 scintigraphy in patients with suspected coronary artery disease. 186 36

Adenosine is a ubiquitous purine base that has many physiological actions in the body, including arterial vasodilation in all vascular beds, with the exception of the kidneys. Myocardial ischemia causes an immediate breakdown of adenosine triphosphate and generates adenosine, thereby producing coronary vasodilation and restoring flow. Adenosine produces vasodilation by interacting with the adenosine receptors in the cell wall. Exogenously administered adenosine has a very short half-life (less than 10 seconds) and produces maximal or near-maximal coronary vasodilation in a dose-dependent fashion. The underlying mechanism for production of myocardial perfusion defects by adenosine thallium 201 scintigraphy is a greater coronary flow increase in the normal arteries and a lesser increase in the stenotic arteries. The ultra-short half-life of adenosine requires a continuous intravenous infusion for its use. Adenosine is often administered as a continuous intravenous infusion at a dose of 140 micrograms/kg per minute for 6 minutes, with the thallium injection given midway through the infusion. The safety of this regimen has been demonstrated in several thousand patients around the country. Side effects, due in great part to the potent vasodilatory effect of the drug, occur in most patients during adenosine infusion. Chest pain also occurs often and in some cases may be due to a true coronary steal phenomenon. First-degree atrioventricular (AV) block occurs in approximately 10% and second- or third-degree AV block in approximately 4% of patients due to the inhibitory effect of adenosine on the AV node conduction. The side effects are very short-lived and typically disappear within 1 or 2 minutes after discontinuing the adenosine infusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pharmacological stress with adenosine for myocardial perfusion imaging. 183 35

The pharmacology, pharmacokinetics, clinical efficacy, adverse effects, and dosage and administration of adenosine in the treatment of episodes of paroxysmal supraventricular trachycardia (PSVT) are reviewed. Adenosine is an endogenous adenine nucleoside that markedly decreases heart rate and prolongs atrioventricular (AV)-nodal conduction. Adenosine is rapidly cleared from plasma by the cellular elements of the blood and by vascular endothelial cells and subjected to enzymatic metabolism. The drug has a half-life of 0.6 to 10 seconds. In noncomparative clinical trials, adenosine terminated 85% to 100% of induced or spontaneous episodes of PSVT involving the AV node in the reentrant circuit. In patients with arrhythmias that do not involve the AV node in the reentrant circuit, adenosine produces AV block and does not restore sinus rhythm. Prospective, randomized trials comparing adenosine with verapamil in adults have not yet been performed. The adverse effects of adenosine include flushing, dyspnea, headache, cough, chest pain, sinus bradycardia, atrial fibrillation, ventricular arrhythmias, and various degrees of AV block. Because of the short half-life of adenosine, these effects are transient and well tolerated. The initial dose of adenosine in treating acute PSVT is 6 mg given by rapid i.v. bolus injection, followed in one to two minutes by up to two additional 12-mg boluses if necessary. Adenosine has been found to be effective in terminating PSVT and thus offers an alternative to verapamil. Prospective, randomized trials comparing adenosine with verapamil are needed to definitively establish adenosine's role in the therapy of PSVT.
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PMID:Adenosine in the episodic treatment of paroxysmal supraventricular tachycardia. 218 71

The acute haemodynamic effects of intravenous infusion of adenosine, a dilator of most vascular beds, were studied in 16 patients (seven with coronary artery disease, nine with normal coronary arteries) undergoing cardiac catheterization for investigation of chest pain. At the lowest dose used (4.3 mg min-1) adenosine increased minute ventilation by 44% (P less than 0.01, n = 11) and reduced pulmonary vascular resistance by 20% (P less than 0.05) without causing other significant haemodynamic changes. Symptoms, including chest discomfort in 14 patients and dyspnoea in 11, limited the maximum dose to 8.5 +/- 2.3 mg min-1 (mean +/- SD, 108 +/- 24 micrograms kg-1 min-1). At this dose, adenosine reduced pulmonary and systemic vascular resistance (by 38% and 34%, respectively) and increased heart rate (by 34%), stroke index (by 12%) and cardiac index (by 52%). Systemic blood pressure and right atrial pressure did not change. Unexpectedly, adenosine increased left ventricular end-diastolic pressure (LVEDP) (from 5 +/- 6 to 14 +/- 10 mmHg, n = 8), pulmonary capillary wedge pressure (from 3 +/- 2 to 10 +/- 5 mmHg, n = 16) and consequently mean pulmonary artery pressure (from 10 +/- 2 to 16 +/- 5 mmHg). Minute ventilation increased by 84% (n = 11), resulting in hypocapnia (PCO2: 31 +/- 3 mmHg, n = 8) and alkalosis (pH: 7.46 +/- 0.02, n = 8). Oxygen consumption was unchanged during the infusion, but increased by 21% 5 min post infusion. All effects were similar in patients with and without coronary artery disease. Adenosine therefore causes pulmonary and systemic vasodilation and respiratory stimulation. Symptoms and an increase in LVEDP of uncertain cause, which occur with high doses, may limit the use of adenosine as a systemic vasodilator in conscious subjects. However at lower doses adenosine causes selective pulmonary vasodilation which merits further study.
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PMID:Acute haemodynamic effects of intravenous infusion of adenosine in conscious man. 228 21

After titration of maximum tolerable i.v. bolus dose of adenosine, this dose was given to seven volunteers (20-42 years), instrumented with a three-lumen oesophageal pressure catheter with recording sites at the levels of the stomach, the lower oesophageal sphincter (LOS) and the oesophagus. In addition to continuous pressure recordings, chest pain was estimated continuously by a 10-graded category-ratio scale. Baseline resting pressures were 8.4 (1.9) mmHg in the stomach, 1.6 (1.7) mmHg in the oesophagus and 20 (2.6) mmHg in the LOS resulting in a net LOS pressure of 11 (+/- 1.3) mmHg. Following injection of adenosine which provoked transient chest pain with a rated maximum of 5.4 (1.0), resting oesophageal pressure did not change while net LOS pressure decreased to -1.3 (1.9) mmHg (P less than 0.0001). Adenosine injection did not affect swallowing-induced peristaltic contractions of the oesophagus and LOS although the peristaltic wave was delayed (P less than 0.05). Thus, chest pain evoked by adenosine cannot be caused by spastic oesophageal contractions. Adenosine may have a relaxing effect on the LOS but does not block its normal reactions to swallowing.
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PMID:Chest pain and oesophageal pressure relationships in man following an intravenous bolus of adenosine. 258 31

The diagnostic and therapeutic potential of intravenous adenosine was studied in 64 patients during 92 episodes of regular sustained tachycardia. In 40 patients who had narrow complex tachycardias (QRS less than 0.12 s) adenosine (2.5-25 mg) restored sinus rhythm in 25 with junctional tachycardias (46 of 48 episodes) and produced atrioventricular block to reveal atrial or sinus tachycardia in 15. In 24 patients with broad complex tachycardias (QRS greater than or equal to 0.12 s) adenosine terminated the tachycardias in six patients and revealed atrial or sinus arrhythmias in four. The tachycardias persisted in 14 patients despite doses up to 20 mg, but adenosine allowed the diagnosis of ventricular tachycardia with retrograde atrial activation in two patients by producing transient ventriculoatrial dissociation. Diagnosis based on adenosine induced atrioventricular nodal block was correct in all patients with narrow complex tachycardias and in 92% of those with broad complex tachycardias, compared with correct electrocardiographic diagnoses in 90% and 75% respectively. Adenosine gave diagnostic information additional to the electrocardiogram in 25%. The response to adenosine in broad complex tachycardias identified those of supraventricular origin with 90% sensitivity, 93% specificity, and 92% predictive accuracy. Adenosine restored sinus rhythm in all patients with junctional reentrant tachycardias, but in 10 (35%) the arrhythmias recurred within two minutes. Symptomatic side effects (dyspnoea, chest pain, flushing, headache) were reported by 40 (63%) patients and, although transient, were severe in 23 (36%). There were ventricular pauses of over 2 s in 16% of patients, the longest pause being 6.1 s. Adenosine is of value in the diagnosis and treatment of narrow and broad complex tachycardias, but its use is limited by symptomatic side effects, a tenfold range in minimal effective dosage, occasional action at sites other than the atrioventricular node, and early recurrence or arrhythmia.
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PMID:Value and limitations of adenosine in the diagnosis and treatment of narrow and broad complex tachycardias. 278 11

Adenosine is formed from adenosine triphosphate within the ischaemic cells from where it is released into the coronary circulation. Adenosine exhibits several cardiovascular effects which tend to protect the ischaemic myocardium. Based on the observation that in healthy volunteers the intravenous infusion of adenosine produces angina-like chest pain, it has been recently proposed that another cardioprotective action of this substance could be provocation of angina. If this is the case adenosine should not produce chest pain in patients with silent ischaemia. To test this hypothesis we infused this substance intravenously at increasing doses of 50, 100, 150, 200, 250 and 300 micrograms kg-1 min-1 in eight patients with silent ischaemia (group A). All of them developed ST depression (1.8 +/- 0.2 mm) during exercise testing and seven also during adenosine infusion (1.1 +/- 0.8 mm). However, none of the patients had chest pain during exercise while seven had chest pain during adenosine. We then infused adenosine in eight other patients (Group B) who had painful ischaemia and an exercise tolerance similar to that of Group A patients (time to 1 mm ST depression 8.6 +/- 2.7 min and 8.4 +/- 3 min, respectively, P = NS). Adenosine induced chest pain in all Group B patients. The time to pain onset during adenosine was similar in the two groups (9.3 +/- 2.3 min in Group B and 12.4 +/- 4.9 min in Group A).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adenosine-induced chest pain in patients with silent and painful myocardial ischaemia: another clue to the importance of generalized defective perception of painful stimuli as a cause of silent ischaemia. 324 54

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