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:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As in hypertension, the addition of a second active drug is believed to enhance treatment efficacy; however, the extent to which a combination of two low-dose drugs outperforms conventional monotherapy remains uncertain. Established treatments of angina comprises nitrates compounds, beta-blockers and calcium antagonists, which are often given in combination. Beta-blockers are major players in this field as they inhibit the tachycardia induced by nitrates and calcium antagonists; there is therefore a pathophysiological justification for their use in combination therapy, supported by repeated confirmation of positive clinical effect. The most widely chosen calcium antagonists are dihydropyridines; verapamil may impair conduction. However, it is not clear whether combination enhances the effects of the individual antianginal substances. Diuretics are for most clinicians the keystone treatment of heart failure; diuretics are often combined with other drugs, e.g. amiloride and spironolactone. The latter also have a beneficial effect on myocardial structure (myocardium/collagen ratio). ACE-inhibitors are of proven clinical efficacy, and, in addition, have a beneficial effect on survival. They combine well with diuretics: because the diuretic stimulates renin release, the ACE-inhibitor can be given at a lower dose (enhancement of effect). There are, however, certain drawbacks (hypotension, hyperkalemia with antialdosterones). The results of combining ACE-inhibitors with calcium antagonists and beta-blockers await investigation. The ISIS studies demonstrated the advantages of combining beta-blockers, thrombolysis and aspirin in acute infarction. ACE-inhibitors have recently been added to the regimen with a positive effect (extended survival), especially in the presence of a decreased ejection fraction (SAVE, AIRE, GISSI 3 and ISIS 4 studies).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Combination therapy in cardiovascular diseases other than hypertension]. 767 73

The left ventricle can change its size and shape as a result of external load and/or loss of viable myocytes. This process, defined as remodeling, can be adaptive, as in compensatory hypertrophy and dilation secondary to myocardial infarction, or maladaptive in response to long-standing systemic hypertension. In addition to ventricular enlargement and cellular hypertrophy, extensive interstitial collagen deposition also occurs during this remodeling process. The increased fibrous tissue and hypertrophied myocytes can also lead to inappropriate energy production and utilization. Angiotensin-converting enzyme (ACE) inhibitors have the ability to modulate both cellular hypertrophy and collagen deposition. These effects represent, in part, the mechanism by which ACE inhibitors modify ventricular remodeling, the subsequent development and clinical expression of heart failure, and finally, the improvement in the mortality of patients with heart failure.
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PMID:Ventricular remodeling and angiotensin-converting enzyme inhibitors. 770 61

The Framingham heart study has shown that arterial hypertension is the major aetiological factor for the development of heart failure. In the presence of heart failure, various regulatory systems may be operative. These include the Frank-Starling mechanism, the neurohormonal system, regulation of cardiac growth and peripheral oxygen delivery. Recently, the interrelationship of the neuroendocrine system and cardiac growth has been examined. In the pressure or volume overloaded heart, growth of the myocardium involves the enlargement of cardiac myocytes, an adaptation governed by ventricular loading. Non-myocyte cell growth, including cardiac fibroblasts, may also occur. However, the haemodynamic load does not appear to be its major physiological stimulus. Cardiac fibroblast activation is responsible for the accumulation of type I and III collagens, the major fibrillar proteins of the myocardial collagen matrix, while vascular smooth muscle cell growth accounts for medial thickening of coronary resistance vessels. This structural remodelling of the cardiac interstitium represents a major determinant of pathological hypertrophy: it accounts for abnormal myocardial stiffness and impaired coronary reserve, thereby leading to ventricular diastolic and systolic dysfunction and ultimately the appearance of symptomatic heart failure. Several lines of evidence suggest that circulating and tissue renin-angiotensin-aldosterone systems are involved in the structural remodelling of the non-myocyte compartment, including the 'cardioprotective' effects of angiotensin converting enzyme (ACE) inhibition or the beneficial effects of anti-aldosterone treatment that were found to prevent myocardial fibrosis in renovascular hypertension due to unilateral renal ischaemia under experimental conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of the structural remodelling of the myocardium: from hypertrophy to heart failure. 771 13

Impaired production of myocardial cyclic adenosine monophosphate (cAMP) is thought to contribute to contractile dysfunction in end stage heart failure, but myocardial cAMP content has not yet been evaluated in heart failure patients in comparison with controls. We therefore measured the myocardial content of cAMP by radioimmunoassay in endomyocardial biopsies from patients in different stages of heart failure and in controls and correlated it with biochemical and functional parameters. The myocardial content of norepinephrine was determined by HPLC in the same biopsies in order to assess if the myocardium studied was affected by heart failure. Myocardial cAMP (in fmol.microgram-1 non-collagen protein) in 20 patients with heart failure (LVEF: 27 +/- 8%, cAMP: 5.8 +/- 2.0) was unchanged in comparison with eight controls (LVEF: 64 +/- 4.7%, cAMP, 4.9 +/- 2.1). In contrast, myocardial norepinephrine (in pg.microgram-1 non-collagen protein) in the same biopsies was significantly reduced in heart failure (4.0 +/- 3.0) in comparison with the same controls (11.5 +/- 3.0, P < 0.0002). Plasma cAMP in 20 heart failure patients (22.0 +/- 4.2 pmol.l-1) was not different from controls(22.0 +/- 7.8), whereas plasma norepinephrine was increased (heart failure: 460 +/- 257 pg.ml-1, controls 182 +/- 49, P < 0.001). Myocardial cAMP levels are indistinguishable from controls in human heart failure and therefore do not contribute to a further characterization of the cardiac adrenergic system in these patients. This is most likely due to the impossibility of obtaining biopsies with truly unstimulated adenylyl cyclase activity.
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PMID:Myocardial cyclic AMP and norepinephrine content in human heart failure. 771 18

Angiotensin II (Ang II) receptor heterogeneity is currently defined by the new subtype-selective agents, losartan (AT1) and PD123177 (AT2). Although both subtypes have been cloned and sequenced, only the AT1 receptor has been shown to have an important physiological or pathophysiological role. AT1 and AT2 receptors are found in both normal and failing cardiac tissue. They are found on myocytes, endothelial cells, fibroblasts, coronary arterial smooth muscle cells, and peripheral sympathetic nerves. The AT1 receptors mediate virtually all of the effects of Ang II in myocytes even though cardiac tissue may contain over 50% AT2 sites. In endothelial cells, functional responses are predominately AT1. In fibroblasts, preliminary data suggest that AT2 receptors may be involved in collagen synthesis. In isolated tissue, Ang II has a limited positive inotropic effect in atrial, but not in ventricular tissue, which is blocked by losartan. Ang II may also have a tonic effect on coronary artery resistance as angiotensin inhibitors can increase coronary flow. Both ACE (Ang II synthesis) inhibitors and Ang II receptor antagonists produce beneficial effects in experimental models of heart failure, suggesting Ang II is an important mediator of heart failure. Because ACE inhibitors also potentiate bradykinin and are non-specific inhibitors of Ang II synthesis (availability of Ang II to both receptor subtypes) some differences can be anticipated. At the present time, however, the beneficial role of bradykinin is controversial and the predominant functional Ang II receptor in the heart and other tissues is the AT1 subtype.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II receptor subtypes: selective antagonists and functional correlates. 771 19

Circulating levels of extracellular matrix components were measured by radioimmunoassays and tested if they were useful for clinical staging in chronic heart failure. In 41 patients with dilated cardiomyopathy (33 idiopathic and 8 ischemic cases), the serum concentrations of procollagen type III aminoterminal peptide (PIIINP), type I collagen telopeptide (ICTP), and basement membrane laminin were significantly higher than in 30 healthy controls regardless of the underlying etiology. Patients with serum values of PIIINP, ICTP, and laminin > 7 micrograms/L, 7.6 micrograms/L, and 2.3 U/ml, respectively, were at higher relative risk for advanced clinical stage, poor hemodynamic condition, hyponatremia, heart transplantation, and death during follow-up than patients with low levels, with the exception that serum laminin > 2.3 U/ml was not significantly associated with hyponatremia and heart transplantation. Despite their interdependence on liver function, circulating levels of PIIINP and ICTP were independent predictors of mortality. In 17 of the 41 patients with cardiomyopathy whose explanted hearts were available for histologic evaluation, serum PIIINP, ICTP, and laminin significantly correlated with the myocardial area fractions of their tissue analogues (PIIINP vs myocardial collagen type III, r = 0.784, p = 0.0013; serum ICTP vs myocardial collagen type I, r = 0.603, p = 0.0527; and serum laminin vs myocardial laminin, r = 0.605, p = 0.0411). In conclusion, the increase in extracellular matrix turnover, which may partially be derived from fibrosis in the myocardium, can be measured in the serum of patients with dilated cardiomyopathy, and has an impact on risk stratification and prognosis.
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PMID:Measuring extracellular matrix turnover in the serum of patients with idiopathic or ischemic dilated cardiomyopathy and impact on diagnosis and prognosis. 773

We isolated 8 genes whose expression is modulated during cardiac development. The expressions of 6 of these eight genes were modulated during the development of cardiac hypertrophy and/or during the transition to heart failure. In particular, the expression levels of the pro alpha-1 collagen, tissue type II transglutaminase, and vimentin genes were markedly increased during the transition to heart failure. Up-regulation of the pro alpha-1 collagen and vimentin genes may reflect activation of interstitial cells during the transition to heart failure. Up-regulation of the tissue type II transglutaminase gene during the transition to heart failure is intriguing, since this enzyme has been suggested to be involved in the activation of latent TGF-beta.
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PMID:Genes up-regulated in hypertrophied ventricle. 773 21

The present investigation was designed to evaluate whether end-stage cardiac failure in patients affected by dilated cardiomyopathy (DC) was dependent upon extensive myocyte cell death with reduction in muscle mass or was the consequence of collagen accumulation in the myocardium independently from myocyte cell loss. In addition, the mechanisms of ventricular dilation were analysed in order to determine whether the changes in cardiac anatomy were important variables in the development of intractable congestive heart failure. DC is characterized by chamber dilation, myocardial scarring and myocyte hypertrophy in the absence of significant coronary atherosclerosis. However, the relative contribution of each of these factors to the remodeling of the ventricle is currently unknown. Moreover, no information is available concerning the potential etiology of collagen deposition in the myocardium and the changes in number and size of ventricular myocytes with this disease. Morphometric methodologies were applied to the analysis of 10 DC hearts obtained from patients undergoing cardiac transplantation. An identical number of control hearts was collected from individuals who died from causes other than cardiovascular diseases. DC produced a 2.2-fold and 4.2-fold increase in left ventricular weight and chamber volume resulting in a 48% reduction in mass-to-volume ratio. In the right ventricle, tissue weight and chamber size were both nearly doubled. Left ventricular dilation was the result of a 59% lengthening of myocytes and a 20% increase in the transverse circumference due to slippage of myocytes within the wall. Myocardial scarring represented by segmental, replacement and interstitial fibrosis occupied approximately 20% of each ventricle, and was indicative of extensive myocyte cell loss. However, myocyte number was not reduced and average cell volume increased 2-fold in both ventricles. In conclusion, reactive growth processes in myocytes and architectural rearrangement of the muscle compartment of the myocardium appear to be the major determinants of ventricular remodeling and the occurrence of cardiac failure in DC.
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PMID:The cellular basis of dilated cardiomyopathy in humans. 776 Mar 53

Cardiac phenotypic modulation and remodeling appear to be involved in the pathophysiology of cardiac hypertrophy and heart failure. We undertook this study to examine whether angiotensin II (Ang II) in vivo, independent of blood pressure, contributes to cardiac phenotypic modulation and remodeling. A low dose (200 ng/kg per minute) of Ang II was continuously infused into rats by osmotic minipump for 24 hours or 3 or 7 days to examine the effects on the expression of cardiac phenotype-related or fibrosis-related genes. This Ang II dose caused a small and gradual increase in blood pressure over 7 days. Left ventricular mRNAs for skeletal alpha-actin, beta-myosin heavy chain, atrial natriuretic polypeptide, and fibronectin were already increased by 6.9-, 1.8-, 4.8-, and 1.5-fold, respectively, after 24 hours of Ang II infusion and by 6.9-, 3.3-, 7.5-, and 2.5-fold, respectively, after 3 days, whereas ventricular alpha-myosin heavy chain and smooth muscle alpha-actin mRNAs were not significantly altered by Ang II infusion. Ventricular transforming growth factor-beta 1 and types I and III collagen mRNA levels did not increase at 24 hours and began to increase by 1.4-, 2.8-, and 2.1-fold, respectively, at 3 days. An increase in left ventricular weight occurred 3 days after Ang II infusion. Treatment with TCV-116 (3 mg/kg per day), a nonpeptide selective angiotensin type 1 receptor antagonist, completely inhibited the above-mentioned Ang II-induced increases in ventricular gene expressions and weight. Hydralazine (10 mg/kg per day), which completely normalized blood pressure, did not block cardiac hypertrophy or increased cardiac gene expressions by Ang II.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II induces cardiac phenotypic modulation and remodeling in vivo in rats. 776 70

Pleuritis or pleural effusion frequently develops in patients with pneumonia or heart failure. Most of these pleural changes regress without intrapleural intervention. The detailed mechanisms of the regression of the pleural changes in humans are not well documented. We studied the parietal pleura of nine patients with lung cancer and two patients with coronary artery disease by scanning electron microscopy (SEM). All patients had neither radiographic nor gross evidence of pleural disease but all had mixed surface alterations by SEM. Focal denudation of mesothelial cells was common. Deeper injuries exposed thick and thin interweaving collagen bundles. Patchy depositions of amorphous or crystallized fibrin covered normal and damaged pleural surfaces, frequently admixed with macrophages, red blood cells, and tissue debris. Reactive mesothelial cells appeared to proliferate over the fibrin. Our findings suggest that subclinical pleural alterations occur often in patients with pulmonary or cardiac diseases and that an intact pleural surface in those patients is restored mainly by the proliferation of reactive mesothelial cells.
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PMID:Subclinical surface alterations of human pleura. A scanning electron microscopic study. 777 1


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