Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intravenous etilefrine increases the pulse rate, cardiac output, stroke volume, central venous pressure and mean arterial pressure of healthy individuals. Peripheral vascular resistance falls during the infusion of 1-8 mg etilefrine but begins to rise at higher dosage. Marked falls in pulse rate, cardiac output, stroke volume and peripheral bloodflow, accompanied by rises in mean arterial pressure, occur when etilefrine is infused after administration of intravenous propranolol 2,5 mg. These findings indicate that etilefrine has both beta 1 and alpha adrenergic effects in man.
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PMID:The cardiovascular effects of etilefrine. 0 93

The study was conducted in six healthy male volunteers aged between 20 and 30 years. Cardiac output was determined by means of the Swan-Ganz-thermodilution-method. A control-study was carried out, during which an isoproterenolinfusion with increasing doses was given. Fifty minutes after i.v. injection of a beta-receptor-blocker the hemodynamic parameters were measured again under increasing doses of isoproterenol until the block was overcome. This study procedure was performed twice in each subject at an interval of at least 14 days. For the one study 15 mg propranolol i.v. and for the other 0,5 mg mepindolol i.v., a new beta-receptor-blocker, were injected. After i.v. injection of propranolol the dose-response-relationship-curve for the heart-rate (HR) and stroke volume (SV) describes a definite shift to the right. After mepindolol the dose-effect curve for the heart rate describes a definite shift to the right, as seen with propranolol. In contrast, only a very slight shift can be seen in respect of the SV increase, i.e. the SV and HR curves dissociate under mepindolol. The results of our study indicate, that a distinction can be made with respect to the so-called beta 1-receptors between those mediating a specific effect on the heart-rate and those mediating a mainly positive inotropic effect.
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PMID:A model for distinguishing between beta1-receptors which mediate a specific effect on the heart rate and those which mediate a positively inotropic effect. 1 65

The cardinal hemodynamic disorder in established essential hypertension is increased total peripheral resistance. During exercise, the increase in stroke volume of the heart is abnormal. A 20-year follow-up study of the hemodynamics in essential hypertension demonstrated a progressive increase in total peripheral resistance and deterioration of the heart pump function. Long-term treatment with antihypertensive agents modifies the circulatory system in different ways. Vasodilators (angiotensin converting enzyme inhibitors, alpha 1-blockers, and calcium antagonists) all reduce total peripheral resistance, and in general, cardiac output, heart rate, and stroke volume remain unchanged. Calcium antagonists like verapamil and diltiazem reduce the heart rate approximately 10% during exercise, but since stroke volume increases, cardiac output is unchanged. Chronic treatment with conventional beta-blockers induces a permanent reduction in cardiac output and heart rate during exercise. In contrast, carvedilol--a beta 1,beta 2-blocker with alpha 1-blocking activity--prevents the immediate increase in total peripheral resistance during acute beta-blockade. In 19 patients followed by hemodynamic measurements over 6-9 months, blood pressure was well controlled by carvedilol. During exercise, total peripheral resistance decreased 6% (P less than 0.05), and the reductions in heart rate and cardiac index were less than on conventional beta-blockade. Echo-Doppler studies showed a significant reduction in the intraventricular septum of 13%.
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PMID:Long-term hemodynamic effects of antihypertensive treatment. 135 Apr 86

Denopamine is an orally active beta 1 agonist whose cardiovascular action in the newborn is unknown. We evaluated its circulatory effects during normoxia in newborn piglets less than 7 days of age. The piglets were acutely instrumented under general anesthesia with an electromagnetic flow probe around the main pulmonary artery and catheters in the main pulmonary artery, aorta, left ventricle, and the right and left atria. A Millar high-fidelity catheter was used to measure left ventricular dp/dt. The ductus arteriosus was ligated. Denopamine was administered in the right atrium as a continuous infusion of 2, 4, and 8 micrograms/kg per min for 10 min each. Although cardiac index, heart rate and left ventricular dp/dt increased dose-dependently by 46.0 +/- 18.2%, 87.1 +/- 34.9% and 159.9 +/- 42.4%, respectively, stroke index was not significantly altered. Unlike pulmonary artery pressure (which increased dose-dependently), aortic pressure increased with 2 and 4 micrograms/kg per min denopamine, respectively, it fell with 8 micrograms/kg per min denopamine. Similarly, the systemic vascular resistance decreased with the high dose (8 micrograms/kg per min). There was no significant change in pulmonary vascular resistance. Denopamine is potently inotropic in the adult. However, its circulatory effect in the neonate is dependent on its chronotropic action. Furthermore, denopamine is a systemic vasodilator at high doses in the neonatal circulation.
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PMID:Circulatory effects of denopamine in newborn piglets. 135 14

Cicloprolol is a new beta-blocking agent with high selectivity for beta 1 receptors and high intrinsic sympathomimetic activity. We studied the acute hemodynamic effects of cicloprolol in nine subjects with no evidence of left ventricular dysfunction who underwent cardiac catheterization for the evaluation of chest pain. All patients had normal coronary angiography and left ventriculography. Left ventricular pressure was determined throughout the cardiac cycle using a Millar 8Fr Minotip catheter; an echocardiogram, phonocardiogram, and ECG were simultaneously recorded to obtain left ventricular pressure-diameter loops. All the measurements were repeated before and after the intravenous administration of cicloprolol. Cicloprolol was administered at increasing doses of 0.05, 0.10, and 0.25 mg/kg until a cardiac output increase of at least 15% over basal values was achieved. A decrease of mean arterial pressure or cardiac output after cicloprolol was not observed in any patient. Cicloprolol administration significantly increased cardiac output (24%), stroke volume (22%), and peak positive dP/dt (25%); no significant changes in heart rate, systemic blood pressure, right atrial pressure, or pulmonary artery pressures were observed. No significant change in the echocardiographic parameters occurred. Among the indices of left ventricular diastolic function, the time constant of isovolumetric relaxation was significantly decreased (-43%) after cicloprolol; moreover, the left ventricular pressure-diameter loop in the protodiastolic phase was shifted to the left following cicloprolol infusion. This study confirms that in subjects with normal left ventricular function cicloprolol can improve resting left ventricular systolic function, and it shows that this action can also be attended by a more rapid isovolumetric relaxation, similar to what has been observed with other sympathomimetic amines.
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PMID:Combined invasive and noninvasive study of left ventricular systolic and diastolic function following acute administration of cicloprolol to subjects with normal cardiac function. 136 Feb 56

Nineteen men (mean age, 44 years) with moderately severe essential hypertension were studied invasively at rest and during exercise. After initial predrug recordings, patients received 25 mg carvedilol orally, and central hemodynamics at rest and during exercise were recorded 1 and 2 h after tablet intake to evaluate the immediate effects of carvedilol. Blood pressure decreased by 11% within 1 h, and the hemodynamic results indicated a combination beta-blocking and vasodilating effect. After 6-9 months of treatment (dose, 25-100 mg), supine hemodynamics were recorded, first 12-24 h after the last dose and then 1 and 2 h after an additional 25-mg dose. During chronic treatment (2 h after the last dose with the patient at rest and in the supine position), mean arterial pressure was reduced by 17% (p less than 0.001) and total peripheral resistance index was reduced by 6% (NS), whereas heart rate and cardiac index were reduced by 12%. Exercise hemodynamics demonstrated a decrease in blood pressure of 17% (p less than 0.001). Exercise stroke index increased by 5% (NS), in part compensating for the reduction in heart rate of 17%. Total peripheral resistance index was reduced by 5% (NS). Twenty-four-hour blood pressure monitoring (Accutracker II) demonstrated significant blood pressure reductions in awake as well as in asleep patients. Blood pressures decreased from 163/102 to 141/84 mm Hg in from 135/78 to 122/68 mm Hg in awake and asleep patients; respectively. Carvedilol is an effective antihypertensive agent, and the hemodynamic mode of action reflects alpha 1- and beta 1-blocking activities.
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PMID:Carvedilol in hypertension: effects on hemodynamics and 24-hour blood pressure. 137 46

A high adrenergic strain during reperfusion after ischemia impedes functional recovery. Conversely, adrenergic blockade may be beneficial during reperfusion. Negative inotropic effects may outweigh the expected benefit, however. Against this background hemodynamic and metabolic effects of early postoperative infusion with the beta 1-selective agent metoprolol were studied in 22 patients after coronary operations. During basal postoperative conditions, intravenous metoprolol reduced cardiac index and stroke volume index compared with control patients, while other variables were unaffected. During the higher adrenergic level of a dopamine infusion (7 micrograms/kg per minute), the heart rate, rate pressure product, and myocardial oxygen uptake were attenuated in proportion to the plasma level of metoprolol. Intravenous beta 1-blockade did not affect the cardiac output or stroke volume responses to dopamine (the cardiac output was still, however, 19% lower than in control patients). A release of myocardial creatinine kinase isoenzyme myocardial band was observed during dopamine infusion, suggesting that myocardial ischemia was induced. The release was not influenced by metoprolol, but it correlated with heart rate (r = 0.60; p < 0.01). It is concluded that infusion of metoprolol early after coronary operations depresses myocardial contractility with some 19%, which was without clinical significance in straightforward patients; the increased myocardial metabolic demand during a period of increased adrenergic stress was attenuated by metoprolol. This may be of importance for myocardial recovery.
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PMID:High-dose intravenous beta 1-blockade in patients early after cardiac operations. Negative inotropism versus myocardial oxygen economy. 145 32

We have evaluated Sramek's method of impedance cardiography as a non-invasive way of detecting the cardiovascular effects of drugs. We made cardiovascular measurements using the method during passive tilting and exercise 2 h after the oral administration of atenolol (50 and 100 mg), propranolol (40 and 80 mg), pindolol (5 and 10 mg), and placebo in seven separate studies involving eight healthy male volunteers. Equivalent doses of the pure antagonists atenolol (beta 1) and propranolol (beta 1, beta 2) produced similar reductions in heart rate, systolic blood pressure, and cardiac index, and increases in stroke volume and total peripheral resistance, particularly during exercise. In contrast the partial agonist pindolol produced increases in heart rate and cardiac index, and reductions in peripheral resistance at rest. During passive tilting and exercise pindolol reduced heart rate, but cardiac output and total peripheral resistance were unchanged except at the highest levels of exercise. The similar cardiovascular effects of atenolol and propranolol, but differing effects of pindolol, are consistent with reports using other methods of measurement. This suggests that impedance cardiography may have a place in the non-invasive assessment of the cardiovascular effects of drugs.
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PMID:Differential cardiovascular effects of propranolol, atenolol, and pindolol measured by impedance cardiography. 154 16

The four most popular classes of antihypertensive drugs may all be considered suitable choices when initiating treatment for hypertension. The practitioner must decide which agent is appropriate for each individual patient. The main goal of treatment should be to prevent coronary events and stroke, while preserving quality of life. A 40% reduction in stroke can probably be achieved with any antihypertensive treatment, a reduction in coronary events is much harder to achieve. Available evidence from studies in men, summarized in this review, indicates that beta-blockade is superior to thiazide diuretics for the prevention of coronary events. Clinical trials have not yet produced long-term prognostic data on the effects of ACE-inhibitors or calcium antagonists on coronary events in hypertensive patients. A recent review on calcium antagonists in post-MI patients concluded that the results were disappointing, as pooled data actually showed a trend towards increased mortality with calcium antagonists as compared with placebo. Because of the large number of hypertensive patients at increased risk for coronary events in the community, the difference observed in coronary events between beta-blockade and other first-line drugs in hypertension (24%) may have important implications for clinical practice. This overall conclusion, however, has to be accepted with some reservations in view of the following observations. Firstly, no reduction in sudden death has been observed with the hydrophilic beta-blockers. Secondly, no reduction in coronary mortality in the smoking subgroup has been observed with the non-selective beta-blockers. Thus, it seems that the prevention of coronary events is more likely to be observed in patients given beta-blockers with certain pharmacological characteristics: relative lipophilicity, which enables passage of the beta-blocker through the blood-brain barrier to exert effects on pertinent central nervous beta 1-receptors. This is potentially useful in reducing the risk of sudden death. The addition of beta 1-selectivity is important for the risk reduction in smokers. Cardioselectivity is also an advantage in relation to side-effects and quality of life. The reduced risk for coronary events with certain beta-blockers is probably independent of the reduction in blood pressure: possible mechanisms studied are cardiac anti-ischaemic effects, antifibrillatory effects, antiatherosclerotic and anti-thrombotic effects.
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PMID:Reducing the risk for coronary heart disease and stroke in hypertensives--comments on mechanisms for coronary protection and quality of life. 154 19

Nineteen men (mean age 44 years) with essential hypertension, WHO stage I, were studied invasively at rest and during exercise. Blood pressure was recorded intra-arterially (brachial artery), cardiac output by dye dilution method and heart rate by electrocardiography. After initial pre-drug recordings, the patients received 25 mg carvedilol orally and central haemodynamics at rest and during exercise were recorded 1 and 2 h after tablet intake to evaluate the immediate effects of carvedilol. The results indicated a combined beta-blocking and vasodilating effect. After 6-9 months of treatment, supine haemodynamics were recorded 12-24 h after the last dose and then 1 and 2 h after an additional 25 mg dose. During chronic treatment (2 h after last dose at rest supine) mean arterial pressure was reduced by 17% (P less than 0.001) and total peripheral resistance index by 6% (NS) while heart rate and cardiac index were reduced by 12%. Exercise haemodynamics demonstrated a fall in blood pressure of 17% (P less than 0.001). Exercise stroke index increased by 5% (NS), partly compensating for the reduction in heart rate of 17%. Total peripheral resistance index was reduced by 5% (NS). It is concluded that carvedilol is an effective anti-hypertensive agent in a large proportion of patients with essential hypertension. The haemodynamic mode of action reflects an alpha 1-blocking activity, particularly in situations with low sympathetic tone. During exercise the beta 1-blocking activity (demonstrated by the reduction in heart rate) is more prominent.
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PMID:Chronic haemodynamic effects of carvedilol in essential hypertension at rest and during exercise. 155 29


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