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

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

Recent studies have shown that beta-blockers may be effective in the management of heart failure. However, negative inotropic effects of these agents may offset the beneficial properties of up-regulation of the beta-receptors and reduction in myocardial oxygen demand. Carvedilol is a new drug which possesses a balanced combination of vasodilatation and beta-blockade. Previous studies have shown that carvedilol may have beneficial effects on left ventricular function in patients with ischemic heart disease. We have performed a preliminary study to address the safety and acute effects of intravenous carvedilol in 17 patients with chronic congestive heart failure secondary to ischemic heart disease. Acute hemodynamic changes were monitored by right heart catheterization and arterial cannulation. Ejection fraction was also monitored by radionuclide ventriculography. Significant reductions in heart rate (79 +/- 14 to 72 +/- 12 beats/min, p less than 0.001) systolic and diastolic blood pressure (137 +/- 20/72 +/- 8 to 119 +/- 19/66 +/- 8 mm Hg, p less than 0.001 and p less than 0.01), systemic vascular resistance (1766 +/- 367 to 1518 +/- 377 dynes/s/cm-5/m2, p less than 0.001) and pulmonary artery wedge pressure (20 +/- 8 to 15 +/- 7 mm Hg, p less than 0.001) were observed. Ejection fraction increased significantly from 24 to 28% (p less than 0.001) but there was little change in cardiac index or stroke volume index. The peak changes occurred at 10 min and the effect on pulmonary wedge pressure was maintained up to 30 min. No adverse effects were noted. The improvements in left ventricular filling pressure and systolic function, and the reduction in sympathetic activity may combine to produce an important therapeutic advantage in congestive heart failure. Further studies with this interesting agent are recommended.
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PMID:The effects of intravenous carvedilol, a new multiple action vasodilatory beta-blocker, in congestive heart failure. 172 73

Despite considerable interest in the use of beta-blocking agents in congestive heart failure (CHF), their clinical application is limited because of their negative inotropic effects. Beta blockers with vasodilating properties may have the advantage of overcoming this, however. Carvedilol, a beta-blocking agent with vasodilating properties, was evaluated in 17 patients with chronic CHF secondary to ischemic heart disease with a resting left ventricular ejection fraction less than or equal to 45%, who were being maintained on diuretics. Exercise testing, radionuclide ventriculography, and right-sided cardiac catheterization were performed and intraarterial blood pressure measured before and after 8 weeks of carvedilol therapy in a dosage of 12.5 to 50.0 mg twice a day. Twelve patients completed the study and 5 withdrew. Symptomatic and hemodynamic improvement was demonstrated in 11 of the 12 patients. Heart rate and intraarterial blood pressure were both reduced by chronic therapy. Mean +/- standard deviation exercise time improved from 4.3 +/- 1.6 to 7.1 +/- 2.7 minutes (p less than 0.0001), as did resting left ventricular ejection fraction, from 27 +/- 9 to 31 +/- 11% (p less than 0.02). Pulmonary arterial wedge pressure fell from 19 +/- 7 mm Hg to 12 +/- 5 mm Hg (p less than 0.001) and total systemic vascular resistance from 1,752 +/- 403 to 1,497 +/- 310 dynes/s/cm-5/m2 (p less than 0.02). Stroke volume index improved also, from 31 +/- 6 ml to 40 +/- 6 ml (p less than 0.0005). These hemodynamic changes were mediated partly by vasodilation, diminished myocardial oxygen demand and reduction of sympathetic overactivity in the failing heart. These data suggest that carvedilol may have beneficial effects in patients with chronic CHF secondary to coronary artery disease.
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PMID:Value of carvedilol in congestive heart failure secondary to coronary artery disease. 197

Comparative haemodynamic investigations with carvedilol and verapamil were carried out on conscious, instrumented dogs. Arterial blood pressure, right atrial pressure (RAP), cardiac output (CO), heart rate, stroke volume and total peripheral resistance (TPR) were determined after intravenous (i.v.) injection of incremental doses (0.01-3 mg/kg) of the drugs. Carvedilol reduced the blood pressure in a dose-dependent manner, concomitant with a reduction in TPR. The RAP and the CO were not affected, indicating that arterial vasodilatation was induced by carvedilol. Verapamil showed a decrease in the blood pressure with a reduction of CO and SV. Moreover, at high doses the RAP was increased, indicating a reduction of the cardiac performance. Thus, in our experimental model remarkable differences between the haemodynamic effects of i.v. injections of carvedilol and verapamil have been observed, whereas after oral administration blood pressure also decreases after verapamil due to a reduction of TPR.
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PMID:Comparison of the haemodynamic profiles of the hypotensive action of verapamil and carvedilol. 285 3

The effects of carvedilol, a novel vasodilating beta-blocker and antioxidant, and propranolol on survival, neurobehavioral deficits, cardiovascular parameters, plasma renin, plasma aldosterone levels and renal pathology were determined in stroke-prone spontaneously hypertensive rats. Stroke-prone spontaneously hypertensive rats were allowed access to 1% NaCl as the drinking solution and a high fat diet supplemented with carvedilol (1200 or 2400 ppm) or propranolol (2400 ppm). The control group consisted of stroke-prone spontaneously hypertensive rats placed on the same diet with no drug supplement. Animals fed propranolol had a blood level of 864 +/- 68 ng/ml, whereas carvedilol-fed animals had blood levels of 24 +/- 4 ng/ml at 1200 ppm and 471 +/- 145 ng/ml at 2400 ppm. Carvedilol and propranolol treatment resulted in significant beta adrenoceptor blockade. Both compounds reduced heart rate, but had no significant effects on systolic arterial blood pressure. Carvedilol- and propranolol-treated animals also exhibited significant, prolonged protection from neurobehavioral deficits and mortality (P < .01). Elevated plasma renin activity and aldosterone levels seen in untreated controls were significantly decreased by propranolol (P < .05), and to a considerably greater extent by the same dose of carvedilol (P < .01). Carvedilol decreased renal histopathological damage and cardiac hypertrophy to a greater extent (P < .01) than propranolol (at equal doses). Both carvedilol (P < .01)- and propranolol (P < .01)-treated animals had considerably reduced renal damage at 18 weeks of treatment. Carvedilol reduced renal damage more than propranolol (P < .05). In addition, the lower (1200 ppm) dose of carvedilol, which decreased neurobehavioral deficits and mortality, had no significant effects on organ mass or renal function, but significantly (P < .01) reduced renal damage. These data indicate that both beta adrenoceptor blockers, especially carvedilol to a considerably greater degree, convey significant protection in a genetic model of severe hypertension that results in renal and cardiovascular organ pathology, neurobehavioral deficits and premature death.
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PMID:Chronic carvedilol reduces mortality and renal damage in hypertensive stroke-prone rats. 893 Feb 4

1. This study investigated the effects of chronic treatment with carvedilol, a beta-blocking agent with an alpha-blocking activity, on blood pressure, endothelium-dependent relaxation and the endothelial structure of the mesenteric resistance artery in stroke-prone spontaneously hypertensive rats (SHRSP). 2. Chronic treatment with carvedilol at a dose range of 30-120 mg/kg per day lowered systolic blood pressure of SHRSP from 234.9 +/- 3.3 to 198.7 +/- 3.1 mmHg at 16 weeks of age. 3. Acetylcholine-induced endothelium-dependent relaxation was impaired in the mesenteric artery from SHRSP and high concentrations of acetylcholine produced contractions. The impairment of the relaxation was abolished in the presence of indomethacin. Carvedilol treatment improved the impairment in the preparation from SHRSP. The structural abnormality of endothelium was observed in the preparation from SHRSP. The abnormality could be prevented by the antihypertensive treatment. 4. These results suggest that the impairment of endothelium-dependent relaxation in the preparation from SHRSP is due to the corelease of an endothelium-derived contracting factor which is considered to be a product of cyclo-oxygenase pathway of arachidonic acid cascade and that the impairment can be prevented by the antihypertensive treatment with carvedilol.
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PMID:Effects of chronic treatment with carvedilol on abnormalities of endothelium-dependent relaxation and structure of endothelium in resistance arteries of SHRSP. 907 14

Carvedilol is a novel, multiple-action cardiovascular drug that is currently approved in many countries for the treatment of hypertension. The reduction in blood pressure produced by carvedilol results primarily from beta-adrenoceptor blockade and vasodilation, the latter resulting from alpha 1-adrenoceptor blockade. These actions, as well as several of the other activities of carvedilol, are associated with cardioprotection in animal models that occurs to a degree that is greater than that observed with other drugs. The multiple actions of carvedilol may also provide the underlying rationale for the use of the drug in the treatment of coronary artery disease and congestive heart failure. By virtue of being both a beta-blocker and a vasodilator, carvedilol significantly decreases myocardial work by reducing all three components of myocardial oxygen demand, namely, heart rate, contractility, and wall tension. The vasodilatory effects of carvedilol reduce afterload, and the resulting decrease in impedance to left ventricular ejection offsets the negative inotropic effect that would normally result from beta-blockade. As a consequence, stroke volume and cardiac output are maintained or even increased in animals and in patients with congestive heart failure who are treated with carvedilol. Carvedilol and several of its metabolites are potent antioxidants, and this activity may account, in part, for the cardioprotective effects of the drug observed in animal models of acute myocardial ischemia and, in theory, could also serve to protect the myocardium of patients with hypertension, coronary artery disease, and congestive heart failure, in which oxidative stress is now recognized to occur. The antioxidant effects of carvedilol may both inhibit the direct cytotoxic actions of reactive oxygen radicals and prevent oxygen-radical induced activation of transcription factors and genes associated with inflammatory and remodeling processes. Accordingly, carvedilol inhibits the gene expression of the intracellular adhesion molecule-1 (ICAM-1), an adhesion molecule for polymorphonuclear leukocytes, which typically infiltrate the myocardium under conditions of ischemia and may exacerbate ischemic injury. The antioxidant activity of carvedilol has been shown to inhibit the oxidation of low density lipoprotein (LDL) in vitro, thereby preventing the formation of this cytotoxic and atherogenic form of LDL. It follows, therefore, that in animal models of hyperlipidemia, carvedilol attenuates aortic lipid accumulation and decreases the aortic content of monocytes and foam cells, and at the same time it has been shown to preserve endothelial integrity and function. These actions of carvedilol are not shared by other beta-blockers or by other drugs currently used in the management of hypertension, coronary artery disease, or congestive heart failure. The multiple actions of carvedilol may provide the underlying pharmacologic rationale for the use of this drug in the treatment of patients with coronary artery disease or congestive heart failure, and these actions may account, at least in part, for the reduction in mortality produced by carvedilol in clinical trials involving patients with congestive heart failure. Likewise, these actions of carvedilol may also provide protection, beyond that afforded from reduction in blood pressure, against secondary organ damage in hypertensive patients treated with the drug.
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PMID:Pharmacology of carvedilol: rationale for use in hypertension, coronary artery disease, and congestive heart failure. 921 Oct 17

Carvedilol is a novel antihypertensive agent. It is a multiple-action neurohormonal antagonist with a beta-adrenoceptor blocking effect combined with a vasodilating action based on alpha1-adrenoceptor blockade. In addition, carvedilol exerts a number of well documented ancillary effects such as being a scavenger of free radicals. It also has an antiproliferative action on smooth muscle cells. This combination of effects opens up a number of interesting clinical perspectives. It is the purpose of this brief review to summarize some of the clinical studies that have been performed with carvedilol. Investigations in hypertensive patients will form the basis of this review, but special interest will also be devoted to other patient groups. In particular the therapeutic value of carvedilol will be discussed in patients with concomitant disorders such as atheromatosis, left ventricular hypertrophy, angina pectoris, myocardial infarction, congestive heart failure, arrhythmias, stroke, renal failure or diabetes. Finally, the usefulness of carvedilol in the treatment of elderly hypertensive patients will be reviewed. It is evident from the available scientific literature that carvedilol is an antihypertensive agent with a novel mode of action. It is effective in many of the subpopulations of patients alluded to above. It appears reasonable to assume that some of these therapeutic effects can be attributed to its ancillary properties.
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PMID:Carvedilol in the treatment of hypertension--a review of the clinical data base. 954 Jan 36

This study was aimed at investigating in chronic heart failure (CHF) the effects that beta-blockade with carvedilol may have on lung function, and their relationship with left ventricular (LV) performance and peak exercise oxygen uptake (VO2p). CHF causes disturbances in ventilation and pulmonary gas transfer (stress failure of alveolar-capillary membrane) that participate in limiting VO2p. Carvedilol improves LV function and not VO2p. Twenty-one NYHA functional class II-III patients were randomized (2 to 1) to carvedilol (25 mg bid., 14 patients) or placebo (7 patients) for 6 months. Rest forced expiratory volume (FEV1), vital capacity (VC), total lung capacity (TLC), carbon monoxide diffusing capacity (DLCO), its alveolar-capillary membrane component (DM), pulmonary venous and transmitral flows (for monitoring changes in LV end-diastolic pressure, EDP), LV diastolic (EDD) and systolic (ESD) dimensions, stroke volume (SV), ejection fraction (EF), fiber shortening velocity (VCF) were measured at baseline and at 3 and 6 months. VO2p, peak ratio of dead space to tidal volume (VD/VTp), ventilatory equivalent for CO2 production (VE/VCO2), VO2 at anaerobic threshold (VO2at) were also determined. FEV1, VC, TLC, DLCO, DM were impaired in CHF compared to 14 volunteers, and did not vary with treatment. Carvedilol reduced EDP, EDD, ESD, and increased EF, SV, VCF, without affecting VO2p, VO2at, VD/VTp, VE/VCO2, at 3 and 6 months. Placebo was ineffective. In CHF, carvedilol exerts neutral effects on ventilation and pulmonary gas transfer and ameliorates LV function at rest. This proves that antifailure treatment may not be similarly effective on cardiac and pulmonary function; and does not contradict the possibility that persistence of lung impairment may contribute to lack of improvement in exercise performance with carvedilol.
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PMID:[A failed improvement in pulmonary function and exercise capacity with carvedilol in congestive heart failure despite an excellent effect on left ventricular function]. 955 74

Increasing evidence supports a role for oxidative stress, proinflammatory cytokines, and apoptosis in the pathophysiology of focal ischemic stroke. Previous studies have found that the multi-action drug, carvedilol, is a mixed adrenergic antagonist, and that it behaves as an antioxidant and inhibits apoptosis. In the current study, the authors investigated whether carvedilol provides protection in focal cerebral ischemia and whether this protection is associated with reduced apoptosis and the downregulation of the inflammatory cytokines, tumor necrosis factor-alpha (TNF-alpha) and interleukin- 1beta (IL-1beta). Male Sprague-Dawley rats were subjected to transient middle cerebral artery occlusion (MCAO) by an intraluminal filament technique. Carvedilol (1, 3, and 10 mg/kg) was injected daily subcutaneously 2 or 4 days before the induction of ischemia. Neurologic scores, infarct volumes, TUNEL staining, and mRNA levels of TNF-alpha and IL-1beta were assessed at 24 hours reperfusion. The effect of carvedilol on microvascular cortical perfusion was studied with continuous laser-Doppler flowmetry. Twenty-four hours after MCAO, carvedilol at all three doses reduced infarct volumes by at least 40% and reduced neurologic deficits on average by 40% compared with vehicle-treated controls when given 2 or 4 days before the induction of ischemia. This protection was not mediated by changes in temperature or blood flow. Treatment with all three dose regimens resulted in fewer TUNEL positive cells compared with controls. At 24 hours reperfusion, carvedilol decreased TNF-alpha and IL-1beta expression by 40% to 50% in the ipsilateral ischemic cortex compared with the contralateral controls. The results of the current study indicate that carvedilol is neuroprotective in focal cerebral ischemia and may protect the ischemic brain by inhibiting apoptosis and attenuating the expression of TNF-alpha and IL-1beta.
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PMID:The novel beta-blocker, carvedilol, provides neuroprotection in transient focal stroke. 1095 Mar 80


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