Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0016382 (flushing)
 6,387 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty-two patients were given progressively increasing doses of Cytembena to determine toxicity patterns and to establish a dosage which produces definite but clinically tolerable toxicity when the drug is given by intravenous injections in a 5-day intensive course. Toxicity consisted primarily of nausea, vomiting, arm pain, and transiently decreased renal function. At higher doses, an "autonomic-storm" phenomenon was observed consisting of hypertension, tachycardia, tachypnea, hyperperistalsis, frequent explosive defecation, facial flushing and paresthesias, and chest pain with accompanying ischemic EKG changes. There was no evidence of mucocutaneous, hepatic, or hematologic toxic effects. Toxicity was dose-related, first being recognized at a daily dose of 300 mg/m2 and becoming clinically intolerable at a daily dose of 475 mg/m2. No permanent damage was observed in any of the organ systems monitored. An acceptable treatment regimen for most patients is 400 mg/m2/day for 5 days. Patient discomfort can be reduced by dividing each day's dose into two intravenous injections given at an interval of at least 6 hours. Coronary artery disease and impaired renal function should be contraindications to Cytembena therapy, and caution should be employed in the patients with significant impairment of liver function. Two of 22 patients, both with far-advanced carcinoma and previous chemotherapy failures, showed a favorable objective response to Cytembena therapy. Phase II studies to assess the magnitude of the drug's antineoplastic activity seem warranted.
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PMID:A phase I study of cytembena. 94 91

Exercise myocardial-thallium scintigraphy plays a fundamental role in the diagnosis of coronary artery disease. Once exercise is not always feasible, pharmacological stress became a possible alternative. The authors review the mechanism of action, administrations protocols, indications and side effects of the drugs used for this purpose: dipyridamole, adenosine and dobutamine. Dipyridamole causes coronary hyperemia by increasing the interstitial levels of endogenous adenosine. Perfusion defects result from the mismatch of coronary reserve in different coronary territories. The drug administration is classically performed with a 0.142 mg/kg/min dosage e.v. for 4 minutes, total of 0.56 mg/kg. It is possible to use a greater dose of 0.84 mg/kg e.v. for 10 minutes, increasing sensitivity without loss of specificity for diagnosis of coronary artery disease. Oral dipyridamole protocols with 300 and 400 mg were used with similar results for sensitivity and specificity. The oral protocol has the disadvantage of delayed onset and longer action. Including several dipyridamole studies, 87% was obtained for sensitivity and 84% for specificity, in the diagnosis of CAD. Dipyridamole scintigraphy has been applied to myocardial infarction risk stratification, cardiac risk evaluation of patients proposed to noncardiac surgery and therapeutic efficacy evaluation of reperfusion techniques (angioplasty and surgery). The secondary effects of dipyridamole are frequent, however mild and well tolerated. They occur in half the patients, the most frequent, facial flushing (2%), dizziness (5%), nausea (4%), vomiting (1%), headaches (11%) and chest pain (26%). Some important complications were reported although rare: myocardial infarction, ventricular fibrillation and bronchospasm.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Role of pharmacologic stimulation with myocardial perfusion scintigraphy in the evaluation of patients with ischemic cardiopathy]. 129 Jun 55

The usefulness of the intravenous dipyridamole-echocardiography test (12-lead and two-dimensional [2-D] echo monitoring during dipyridamole infusion) in the diagnosis of coronary artery disease recently has been suggested. However, the intravenous form of dipyridamole is not available for clinical use in some countries and therefore the administration of oral dipyridamole has been employed in combination with echocardiography. In order to evaluate the relative usefulness of the oral (300 mg of pulverized tablets) vs the intravenous (up to 0.84 mg/kg in 10 min) dipyridamole-echocardiography test, we performed the two tests, on different days and in random order, in 28 inhospital patients: 21 had coronary artery disease (seven had one-vessel disease, eight had two-vessel disease, and six had three-vessel disease); seven patients had no significant coronary artery disease. For both tests, the diagnostic end-point was the development of a transient dyssynergy of contraction. Sensitivity was 95 percent for the intravenous and 52 percent for the oral dipyridamole-echocardiography test (p < 0.01); in positive cases, the dyssynergy after the dipyridamole administration appeared at 6.5 +/- 2.5 min for the intravenous and at 27.8 +/- 12.4 min for the oral test (p < 0.01). Specificity was 100 percent for both the intravenous and oral dipyridamole-echocardiography test. One or more extracardiac side effects (headache, gastrointestinal upset, flushing, etc) occurred in 61 percent of the intravenous and 68 percent of the oral tests (p = ns). Nine patients with a positive intravenous and oral dipyridamole-echocardiography test also had a positive exercise-electrocardiography test. A significant correlation between exercise time (ie, the time from onset of exercise and 0.1 m V of ST segment shift) and dipyridamole time (ie, the time from onset of dipyridamole administration and the development of frank dyssynergy) was present for the intravenous (r = 0.6, p < 0.05) but not for the oral test. We conclude that the oral dipyridamole-echocardiography test, in comparison with the intravenous dipyridamole-echocardiography test, has a lower sensitivity and requires a substantially longer imaging time. The dipyridamole time is related to exercise time for intravenous but not for the oral dipyridamole-echocardiography test.
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PMID:Oral vs intravenous dipyridamole echocardiography for detecting coronary artery disease. 139 66

The purpose of this study was to evaluate the significance of increased Tl-201 uptake by the lungs after oral dipyridamole testing. In conjunction with myocardial perfusion scintigraphy, intravenous dipyridamole has been recently approved as an alternative to exercise for the evaluation of coronary artery disease in patients who cannot adequately exercise, and it will largely replace oral dipyridamole testing. This study contributes to the understanding of the significance of increased lung thallium uptake during pharmacologic stress testing. Oral dipyridamole, 400 mg, was administered to 192 patients undergoing Tl-201 imaging for clinical indications. Mild adverse effects occurred in 31% of patients (chest pain, nausea, headache, or flushing). Dipyridamole had minimal hemodynamic effects. The lung/heart thallium activity ratio was determined in 152 patients. These were subdivided into four groups according to the presence or absence of ischemia, transient myocardial perfusion defect, or scar as indicated by a fixed myocardial perfusion defect. In 61 patients without transient myocardial perfusion defect or fixed myocardial perfusion defect (group 1), the lung/heart thallium activity ratio was 0.39 +/- 0.01 (mean +/- SEM). In 31 patients without transient myocardial perfusion defect but with fixed myocardial perfusion defect (group 2), the lung/heart thallium activity ratio was higher, 0.44 +/- 0.02 (P less than 0.05). In 27 patients with transient myocardial perfusion defect but no fixed myocardial perfusion defect (group 3) and in 33 patients with both transient myocardial perfusion defect and fixed myocardial perfusion defect (group 4), the lung/heart thallium activity ratio was 0.51 +/- 0.03 and 0.52 +/- 0.03, respectively, both significantly higher than either group 1 or group 2 (P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Significance of increased Tl-201 uptake by the lungs in patients undergoing oral dipyridamole-thallium myocardial imaging. 161 45

Intravenous dipyridamole planar thallium-201 imaging is a safe and effective test for detection and prognosis of coronary artery disease (CAD) in the general population. The relative diagnostic accuracy and side-effect profile of dipyridamole thallium-201 stress imaging in women is not defined. Forty-three consecutive female and 71 male patients who underwent dipyridamole thallium-201 imaging (0.56 mg/kg) within 3 months of cardiac catheterization were studied. Scans were considered abnormal if fixed or reversible perfusion defects were detected. Stenosis severity of greater than or equal to 50% luminal diameter reduction of any artery defined CAD. Overall sensitivity for detection of CAD was 0.87 in women and 0.94 in men; specificity was 0.58 in women and 0.63 in men (p = not significant). Sensitivity for detection of 1-vessel CAD was 0.60 in women and 0.94 in men (p = 0.001). The sensitivity for detection of multivessel CAD (with or without surgical revascularization) was 1.0 and 0.94 in women and men, respectively. Adverse effects were reported in 62% of women and in 38% of men (p = 0.01). There was no significant difference in the incidences of chest pain, headache, nausea, flushing or electrocardiographic changes. The incidences of severe ischemia and dizziness were higher in women. Possible explanations for this difference in adverse effects include gender differences in the volume of distribution of dipyridamole due to varied fat-to-muscle ratios and different subjective nocioceptive sensitivities to the effects of dipyridamole. Overall sensitivity and specificity are comparable between the sexes.
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PMID:Comparison of accuracy for detecting coronary artery disease and side-effect profile of dipyridamole thallium-201 myocardial perfusion imaging in women versus men. 162 2

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

Vasodilators of resistive vessels may induce ischemia in patients with coronary artery disease. To evaluate this possibility during prostacyclin (PGI2; scalar doses up to 10 ng/kg/min) and prostacyclin analog (iloprost; scalar doses up to 6 ng/kg/min) infusions, we studied 33 patients with angina pectoris and proved coronary artery disease. Patients were also submitted to dipyridamole (0.15 mg/kg/min for 4 minutes) and exercise stress testing (starting at 25 W and increasing 25 W every 2 minutes). In a preliminary study the hemodynamic and side effects of iloprost were studied in seven healthy subjects. At an iloprost dose of 4 to 6 ng/kg/min, these subjects had a significant decrease in mean arterial pressure and total peripheral and pulmonary vascular resistances. Side effects were limited to facial flushing and slight headache and were readily reversible. PGI2 induced typical chest pain and significant ST segment depression in six patients with severe coronary artery disease (three with left main and three with triple vessel disease) and poor exercise tolerance (means +/- SD = 362 +/- 99 seconds). All six patients had had angina during the dipyridamole infusion. Similar findings were observed after iloprost infusion in four of these. Aminophylline (125 mg iv) completely relieved chest pain. Although the rate-pressure products occasionally rose during PGI2 and iloprost infusions, there were no significant changes between ischemic (11.3 +/- 2.3 and 10.6 +/- 1.4 X 10(-3) U) and preischemic (10.8 +/- 1.5 and 10.7 +/- 1.4 X 10(-3) U) rates of infusion. Our data indicate that PGI2 and iloprost may induce ischemia independently of changes in oxygen demand, and suggest that these drugs dilate small coronary vessels. This may result in decreased subendocardial perfusion pressure and/or "coronary steal."
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PMID:Myocardial ischemia induced by prostacyclin and iloprost. 240 9

The complementary antihypertensive effects of the beta-blocker/calcium antagonist combination has to be weighed against their additive and potentially detrimental negative inotropic, chronotropic, and dromotropic effects inherent in both classes of drugs. We reviewed the main adversity, particularly electrophysiological and hemodynamic effects, of combined treatments with beta-blockers and the calcium antagonists verapamil, diltiazem, and nifedipine. In patients with coronary artery disease, a different picture emerged between the verapamil and nifedipine combination with a beta-blocker. Verapamil was more often associated with conduction problems (up to 9%) and dyspnea or heart failure (up to 8%). These problems had rarely been reported with nifedipine but ankle edema (up to 11%), flushing (up to 11%), and headaches (up to 7%) predominated. The cardiovascular unwanted effects led to withdrawal in 5-8% for the verapamil/beta-blocker or nifedipine/beta-blocker combination. Although there was little cardiac adversity with the nifedipine/beta-blocker combination, the intravenous administration of verapamil in patients on beta-blockers is contraindicated and the oral verapamil/beta-blocker combination should not be sought in patients with impaired left ventricular function and when conduction disturbances are likely to occur. In treating hypertensive patients without overt coronary artery disease, there is no argument against the use of the nifedipine/beta-blocker combination but there is a need for definitive studies of the verapamil/beta-blocker combination.
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PMID:Review of the cardiovascular adversity of the calcium antagonist beta-blocker combination: implications for antihypertensive therapy. 241 10

Nicotinic acid (niacin) is a water-soluble vitamin widely used for the treatment of lipid disorders. In pharmacologic doses (1 g or more/day), alone or in combination with other lipid-lowering drugs, nicotinic acid lowers very low-density (VLDL) and low-density lipoprotein (LDL) levels, while concurrently increasing high-density lipoprotein (HDL) levels. It may reduce long-term mortality in patients with known coronary artery disease and may slow or reverse the progression of atherosclerosis. A major consideration against using nicotinic acid is the occurrence of frequent, bothersome, adverse reactions such as cutaneous flushing, skin rash, and gastric upset. Careful dosing titration may, however, minimize these effects. The beneficial effects, taken together with the low cost of nicotinic acid therapy and the relative freedom from serious side effects, have made nicotinic acid the agent of choice for the treatment of many patients with hyperlipidemia.
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PMID:Nicotinic acid: a review of its clinical use in the treatment of lipid disorders. 267 60


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