UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As a result of antihypertensive therapy, there has been a remarkable decrease in morbidity and mortality from such cardiovascular endpoints as stroke, coronary heart disease, and major hypertensive emergencies. In contrast, there has been no relenting in the increasing prevalence of cardiac failure and end-stage renal disease (ESRD) associated with hypertensive cardiovascular disease. Recent experience in our laboratories that involved the natural development of the cardiac and renal hemodynamic alterations in spontaneously hypertensive rats demonstrated that the natural history and pathophysiological lesions associated with cardiac failure and ESRD may be vastly different from the heretofore more pressure-dependent brain and other cardiac endpoints reported in earlier years. These initial antihypertensive agents (eg, diuretics, beta-adrenergic receptor inhibitors) had minimal anti-ischemic and antifibrotic effects on heart and kidney and did not exert the cardiac and nephroprotective hemodynamic effects of the newer classes of agents. The cardiac and renal endpoints resulting in organ failure today are more related to ischemia, intraorgan fibrosis, and aging. Our experimental studies summarized herein strongly suggest that the newer classes of antihypertensive drugs (ie, ACE inhibitors, angiotensin II type 1 receptor antagonists, certain calcium antagonists, and perhaps L-arginine) may reverse these pathophysiological lesions through improving blood flow and flow reserve, their antifibrotic and other actions. To this end, we look forward to the results of ongoing, well-controlled, and prospectively conducted multicenter clinical studies designed to demonstrate prevention of cardiac and renal failure.
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PMID:Local hemodynamic changes in hypertension: insights for therapeutic preservation of target organs. 1175 23

Congestive heart failure (CHF) is associated with an impaired flow-mediated vasodilation that reflects an impaired endothelial function. Limited information is available, however, on whether and to what extent this impairment is improved by pharmacological or nonpharmacological treatment. We measured radial artery diameter and blood flow by an echo-tracking Doppler device both at baseline and after 4 minutes of hand ischemia, which increases diameter through NO secretion mediated by an increase in flow and shear stress. Data were collected from 44 CHF patients (New York Heart Association class I to III) under standard treatment (diuretic, digitalis, and enalapril, 20 mg/d), in whom CHF severity was assessed by a cardiopulmonary stress test, and from 16 age- and sex-matched controls. CHF patients were then randomized to maintain for (A) 2 months of standard treatment (n=11), (B) treatment with double the ACE inhibitor dose (n=11), (C) standard treatment with an angiotensin II antagonist (losartan, 50 mg/d; n=11), or (D) standard treatment with bicycle training for 30 minutes, 3 times a week (n=11). At baseline, radial artery diameter and flow were similar in CHF patients and controls; CHF patients had a modest although significant impairment in flow increase (-36%) and a striking impairment (-78%) in diameter increase following the 4 minutes of ischemia. After 2 months, baseline diameter and flow remained unaltered in the 4 groups. After the 4 minutes of ischemia, radial artery flow and diameter increased as before in the group under standard treatment (A), whereas in the other 3 groups, the increase was significantly (P<0.05) and, for diameter, markedly (B, 83%; C, 92%; and D, 95%) greater. The vasodilatation induced by trinitroglycerin was similar in CHF and control subjects and not affected by treatments. In CHF, radial artery shows a marked reduction in flow-mediated vasodilation, reflecting impairment of endothelial function. This impairment can be markedly improved by treatments that effectively block the renin-angiotensin system either at ACE or at ACE plus angiotensin receptor level. This is the case also with nonpharmacological treatment of CHF.
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PMID:Radial artery flow-mediated dilatation in heart failure patients: effects of pharmacological and nonpharmacological treatment. 1175 34

Mitral regurgitation is a common valvular abnormality that can result in substantial morbidity. Primary care physicians should maintain a high index of suspicion for this disorder, especially in patients with symptoms of heart failure. The paramount concern is early identification of patients with mitral regurgitation and prompt referral to a cardiologist when symptoms occur or if evidence of ventricular enlargement or reduction in ejection fraction is found. Echocardiography is an invaluable tool in determining the severity of regurgitation, the integrity of the mitral valve apparatus, the extent of left ventricular enlargement, and the ejection fraction. Although no standard medical treatment has been established for mitral regurgitation, use of ACE inhibitors is appropriate. Patients presenting with severe, acute mitral regurgitation from papillary muscle rupture should be evaluated for ischemia and treated expediently. The preferred operative procedure in patients with severe mitral regurgitation and left ventricular dysfunction is mitral valve repair, if possible, or mitral valve replacement with posterior chordal preservation, if feasible.
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PMID:Native mitral valve regurgitation. Proactive management can improve outlook. 1178 16

Restitution of bronchial artery circulation might alter ischemia- reperfusion injury and improve organ function after lung transplantation. Weight-matched dogs underwent a left lung allotransplantation either with bronchial artery revascularization (BAR; n = 6) or as conventional lung transplantation (LTX; n = 6), to evaluate effects of BAR on lung cell function over a period of 5 h postischemically. Lactate dehydrogenase (LDH) and marker enzymes for pneumocytes type I (carboxypeptidase M [CPM], pneumocytes type II (alkaline phosphatase [AP]), and pulmonary endothelium (angiotensin-converting-enzyme [ACE]) were determined from bronchoalveolar lavage fluid. Donor lungs were preserved with Euro-Collins solution. Total ischemic time was kept at 6 h. CPM and LDH activities were significantly higher in both groups at 2 h and 4 h of reperfusion compared with control dogs (p < 0.01). AP and ACE activities in lavage after 2 h of reperfusion were significantly elevated in animals that underwent LTX (AP: 60 +/- 28 IU/L; ACE: 1.39 +/- 1.13 IU/L) compared with animals with BAR (AP: 33 +/- 29 IU/L; ACE: 0.35 +/- 0.6 IU/L; p < 0.05) and with control animals (AP: 13.58 +/- 11.0 IU/L; ACE: 0.06 +/- 0.14 IU/L; p < 0.01). According to these results, BAR protects pulmonary endothelium and type II pneumocytes in the early phase after lung transplantation and might have consequences for lung tissue in the long term.
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PMID:Bronchial artery revascularization affects graft recovery after lung transplantation. 1179 Jun 58

Despite therapeutic advances in heart failure treatment, this syndrome still presents a poor prognosis, with a relevant mortality due to both systolic dysfunction progression and sudden death. Sudden cardiac death appears to be relatively more frequent in less compromised patients (NYHA functional class I) but in absolute numbers it is more frequent in more functionally compromised patients. The ability to predict sudden cardiac events with current available tests is poor, with the possible exception of electrophysiological test in ischemic cardiomyopathy. The risk of sudden death is proven to be increased in more advanced cardiac dysfunction and frequently the acute event can be precipitated by ischemia. Therefore the best approach in the prevention of sudden cardiac death may well be the proper treatment of ischemia and cardiac dysfunction. Beta-blockers have demonstrated a favorable effect in the prevention of sudden cardiac death. ACE-inhibitors can significantly reduce global death in heart failure patients, but their impact on sudden death appears to be limited. The same may be true for angiotensin II blockers. Diuretics have generally been demonstrated to increase sudden death, possibly via electrolyte imbalance; this may explain why spironolactone has a pronounced impact in reducing sudden death. Inotropes, in spite of their good effect on refractory heart failure and their usefulness in the compassionate care of terminally ill heart failure patients, have demonstrated an increase in sudden cardiac death. The same holds true for digoxin, in spite of its ability to reduce death due to heart failure deterioration. Antiarrhythmic drugs, with the possible exception of amiodarone, have demonstrated an unfavorable effect on sudden death incidence.
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PMID:[Arrhythmia risk stratification in patients with heart failure according to drug treatment and its effects]. 1183 48

Angiotensin I converting enzyme (kininase II; ACE) inhibitors are important therapeutic agents widely used for treatment in cardiovascular and renal diseases. They inhibit angiotensin II release and bradykinin inactivation; these actions do not explain completely the clinical benefits. We found that enalaprilat and other ACE inhibitors in nanomolar concentrations activate human bradykinin B(1) receptors directly in the absence of ACE and the B(1) agonist des-Arg(10)-Lys(1)-bradykinin. These inhibitors activate at the Zn(2+)-binding consensus sequence HEXXH (195-199) in B(1), which is present also in ACE but not in the B(2) receptor. Activation elevates [Ca(2+)](i) and releases NO from endothelial or transfected cells expressing the B(1) receptor but is blocked by Ca-EDTA, a B(1) receptor antagonist, the synthetic undecapeptide sequence (192-202) of B(1), and the mutagenesis of His(195) to Ala(195). Except for the B(1) antagonist, these agents and manipulations did not block activation by a peptide ligand. Thus, Zn(2+) is essential for B(1) receptor activation by ACE inhibitors at the zinc-binding consensus sequence. Ischemia or cytokines induce abundant B(1) receptor expression. B(1) receptor activation by ACE inhibitors, a novel mode of action reported here first, can contribute to their therapeutic effects by releasing NO in the heart and to some side effects.
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PMID:Novel mode of action of angiotensin I converting enzyme inhibitors: direct activation of bradykinin B1 receptor. 1188 Mar 73

Repeated bouts of ischemia in the heart lead to fibrosis and eventually to heart failure. Although certain genes, such as SOD or hemoxygenase and antisense to AT(1)R, ACE, and (beta(1)-AR can provide short-term protection of the heart from ischemia, there is no known mechanism for constantly responding to repeated incidences of ischemia. We hypothesized that a "vigilant vector," designed to be expressed specifically in the heart and switch on therapeutic genes only during hypoxia, would provide cardioprotection. To attain cardiac specificity, we inserted an MLC2v promoter into an adeno-associated virus (AAV) designed to deliver AS to AT(1)R and gfp. In in vitro experiments in cardiomyocytes (H9C2 cells), the MLC2v-AAV-gfp drove gene expression in all cells at levels comparable to a cytomegalovirus (CMV) promoter. In in vivo experiments, the rAAV-MLC2v-gfp was injected intravenously into mice or rats. Green fluorescence protein (GFP) DNA was located in kidney, heart (right and left ventricle), lung, adrenal and spleen. GFP mRNA, however, was expressed only in the heart and absent in other tissues. To switch on the rAAV transgene during ischemia, we inserted a hypoxia response element (HRE). This upregulates transcription when O(2) levels are low. Thus, there are 4 components to the vigilant vector; a gene switch (HRE), a heart-specific promoter (MLC2v), a therapeutic gene (AS-AT(1)R) and a reporter gene (gfp). To silence or lower basal level of expression while retaining specificity, we have reduced the length of the MLC2v promoter from 3 kb to 1775 bp or 281 bp. The truncated promoter is equally effective in heart specific expression. Preliminary studies with the rAAV-HRE-gfp in vitro show an increased expression in 1% O(2) in 4 to 6 hours. By adding additional hypoxia-inducible factor (HIFalpha) (5 microg), the MLC2v-gfp expression is increased by 4-fold in 1% O(2). Further amplification of the gene to 400-fold in 1% O(2) can be achieved with a double plasmid. The construct may serve as a prototype "vigilant vector" to switch on therapeutic genes in specific tissue with physiological signals.
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PMID:Vigilant vector: heart-specific promoter in an adeno-associated virus vector for cardioprotection. 1188 25

Coronary heart disease represents the first cause of death in diabetic patients. The poor outcome of this ischemic disease is multifactorial. The abnormalities in myocardial energy metabolism encountered by the diabetic heart explain both the ischemic severity and the worsening of reperfusion lesions. The metabolic abnormalities in diabetic heart consist in both an impairment of glucose metabolism (diminished glucose uptake, reduced glycolysis, decreased glucose oxidation...) and an increase in fatty acid oxidation. During ischemia, glucose oxidation is reduced and anaerobic glycolysis becomes the main ATP substrate. Lactate accumulate in myocardial cells, inducing both a metabolic acidosis and an intracellular calcium overload. During reperfusion, intracellular homeostasis is restored very slowly in diabetic heart. Several therapeutic approaches are used to correct these metabolic disturbances. Glucose--insulin--potassium infusion in acute myocardial infarction leads to a significant reduction in the mortality relative risk in diabetic patients (ECLA and DIGAMI studies). The benefit is greater in diabetic patients who where non-insulin-treated prior to ischemia followed by myocardial reperfusion therapy. Others more direct pharmacological approaches improve glucose oxidation during myocardial ischaemia and myocardial reperfusion. The reference drug remains trimetazidine for which one of the fundamental mechanism of action was discovered recently. This specific metabolic, non haemodynamic approach, complete the gold-standard treatment of coronary heart disease in diabetic patients (e.g. aspirin, beta-blockers, ACE inhibitors and statins).
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PMID:[Metabolic considerations in the treatment of coronary disease in diabetic patients]. 1191 Sep 82

Based on the data from large single and multi-center clinical trials, including the Heart Outcomes Prevention Evaluation (HOPE) study, it is clear that the presence of microalbuminuria is a signal from the kidney that cardiovascular risk is increased and that vascular responses are altered. This is exemplified by studies that have demonstrated that the compensatory vasodilation seen following relief from prolonged ischemia or infusion of vasodilators such as nitroglycerin is blunted in people with microalbuminuria. Thus, the presence of between 30 and 299 mg/day of albumin in the urine is associated with abnormal vascular responsiveness, which may be the result of more advanced atherosclerosis and not necessarily related to the presence of hypertension or renal disease. Agents known to reduce the rise in microalbuminuria or actually reduce the level of microalbuminuria, such as ACE inhibitors, angiotensin receptor blockers, HMG-CoA reductase inhibitors, beta blockers, non-dihydropyridine calcium channel blockers and diuretics, have all been shown to reduce cardiovascular mortality and in some cases preserve renal function. This article will present an overview of the data that support the assertion that a reduction in the rise of microalbuminuria is a significant consideration in the selection of agents to treat a given risk factor (cholesterol or blood pressure) to a recommended target goal. Achieving such a goal with agents that also impact microalbuminuria will provide for a more complete cardiovascular risk reduction.
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PMID:Microalbuminuria: marker of vascular dysfunction, risk factor for cardiovascular disease. 1208 33

ACE-inhibitors and AT -receptor antagonists may exert part of their pharmacological actions by interference with angiotensin-and/or bradykinin-mediated prejunctional stimulation of cardiac norepinephrine release. As endogenous formation of angiotensin and bradykinin is increased in ischemia, we investigated the effects of the ACE-inhibitor ramiprilat and the AT -receptor antagonist candesartan on cardiac norepinephrine release in isolated perfused rat hearts, under nonischemic and stop-flow conditions. Exocytotic release of endogenous norepinephrine was induced by electrical field stimulation and measured by HPLC. Paired stimulations were applied in each heart to obtain an intraindividual comparison of the effect of the pharmacological agent on norepinephrine release with the release under baseline conditions. The ACE-inhibitor ramiprilat (0.1-10 nM) and the AT -receptor antagonist candesartan (1-100 nM) were studied during normal flow or in the fourth minute of stop-flow. Under nonischemic conditions, the ACE-inhibitor slightly reduced norepinephrine release at the highest concentration, while the AT -receptor antagonist did not influence norepinephrine release in normoxia. Conversely, both substances significantly increased norepinephrine release during ischemia. Augmentation of norepinephrine release in ischemia by ramiprilat and candesartan was blocked by the bradykinin B -receptor antagonist HOE 140 and, in case of candesartan, by the AT -receptor antagonist PD 123319. The ACE-inhibitor ramiprilat and AT -receptor antagonist candesartan enhance cardiac norepinephrine release selectively in ischemia by stimulating presynaptic bradykinin B -receptors. Regarding the AT -receptor antagonist, AT -receptor activation is also involved in bradykinin-mediated prejunctional stimulation.
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PMID:Effect of ACE-inhibitor ramiprilat and AT1-receptor antagonist candesartan on cardiac norepinephrine release: comparison between ischemic and nonischemic conditions. 1235 28

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