UMLS:C0018801 - FACTA Search

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

Cardiac hypertrophy, either compensated or decompensated, is associated with cardiomyocyte contractile dysfunction from depressed sarcoplasmic reticulum (SR) Ca(2+) cycling. Normalization of Ca(2+) cycling by ablation or inhibition of the SR inhibitor phospholamban (PLN) has prevented cardiac failure in experimental dilated cardiomyopathy and is a promising therapeutic approach for human heart failure. However, the potential benefits of restoring SR function on primary cardiac hypertrophy, a common antecedent of human heart failure, are unknown. We therefore tested the efficacy of PLN ablation to correct hypertrophy and contractile dysfunction in two well-characterized and highly relevant genetic mouse models of hypertrophy and cardiac failure, Galphaq overexpression and human familial hypertrophic cardiomyopathy mutant myosin binding protein C (MyBP-C(MUT)) expression. In both models, PLN ablation normalized the characteristically prolonged cardiomyocyte Ca(2+) transients and enhanced unloaded fractional shortening with no change in SR Ca(2+) pump content. However, there was no parallel improvement in in vivo cardiac function or hypertrophy in either model. Likewise, the activation of JNK and calcineurin associated with Galphaq overexpression was not affected. Thus, PLN ablation normalized contractility in isolated myocytes, but failed to rescue the cardiomyopathic phenotype elicited by activation of the Galphaq pathway or MyBP-C mutations.
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PMID:Rescue of cardiomyocyte dysfunction by phospholamban ablation does not prevent ventricular failure in genetic hypertrophy. 1263 85

Intensive care medicine is one of the most fast growing segments in medicine. New substances that may improve therapy of the critically ill dramatically have entered the market. Improvements include therapy of methicilline-resistant Staphylococcus aureus (MRSA) infections (linezolid), severe heart failure (calcium sensitizer levosimendan), intractable bleeding (recombinant factor VIIa) and severe sepsis (recombinant activated protein C (aPC)). The anticipations concerning this new strategies of intensive care therapy are high, but use of the new substances is associated with extreme costs. In the past, pharmaceutical therapy represented only a small aspect of all costs in the intensive care unit (ICU). Using this new substances, we are entering a new dimension of costs. One case of recombinant factor VIIa or recombinant aPC increases costs by approximately 10000,- Euro. At the moment, this costs are not covered by extra-budgets. It is still unclear whether by using this new therapeutic strategies other costs can be reduced and the extreme extra-costs can be balanced. The elderly population will increase dramatically in the next years. Looking at this development, it is not only the question whether we can afford intensive care medicine, but the question has to be enlarged whether we can afford the new developments of intensive care medicine. All responsible persons (intensivists, pharmaceutical companies, politicians) are urged to define solutions in the near future.
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PMID:[Can we afford the costs of progress in intensive care medicine? A plea for a candid debate]. 1527 24

A 64-year-old man and a 52-year-old woman in shock with multiple organ failure and worsening of sepsis related organ failure assessment SOFA scores in the early days of care were treated with recombinant human activated protein C (rhAPC). In the woman sepsis was associated with reversible heart failure, with decreased ejection fraction, biventricular dilatation, and a sharp increase of troponin I, observations that have been linked to a higher rate of multiorgan failure and higher mortality. The man began to improve after 24 hours and the woman after 48 hours of rhAPC treatment, with both continuing to improve after withdrawal of treatment. Severe sepsis remains a therapeutic challenge. Among the many treatments based on the physiopathology of the disease, so far only rhAPC seems to improve outcome and reduce mortality.
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PMID:[Two cases of severe sepsis successfully treated with activated protein C]. 1473 82

In addition to functional alterations, heart failure has a structural basis as well. This concerns all components of the cardiac myocytes as well as the extracellular space. Proteins of the cardiomyocyte can be subdivided in 5 different categories: 1) Contractile proteins including myosin, actin, tropomyosin and the troponins. 2) Sarcomeric skeleton: titin, myosin binding protein C, alpha-actinin, myomesin, and M-protein. 3) True 'cytoskeletal' proteins: tubulin, desmin and actin. 4) Membrane-associated proteins: dystrophin, spectrin, talin, vinculin, ankyrin and others. 5) Proteins of the intercalated disc: desmosomes consisting of desmoplakin, desmocollin, desmoglein and desmin; adherens junctions with N-cadherin, the catenins and vinculin, and gap junctions with connexin. Failing myocardium obtained from patients undergoing cardiac transplantation exhibits ultrastuctural degeneration and an altered nucleus/cytoplasm relationship. The contractile proteins and those of the sarcomeric skeleton, especially titin, are downregulated, the cytoskeletal proteins desmin and tubulin and membrane-associated proteins such as vinculin and dystrophin are upregulated and those of the intercalated disc are irregularly arranged. Elevation of cytoskeletal proteins correlates well with diastolic and contractile dysfunction in these patients. The enlarged interstitial space contains fibrosis, i.e. accumulations of fibroblasts and extracellular matrix components, in addition to macrophages and microvascular elements. Loss of the contractile machinery and related proteins such as titin and alpha-actinin may be the first and decisive event initiating an adaptive increase in cytoskeleton and membrane associated components. Fibrosis may be stimulated by subcellular degeneration. The hypothesis is put forward that all proteins of the different myocardial compartments contribute to the deterioration of cardiac function in heart failure.
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PMID:The cytoskeleton and related proteins in the human failing heart. 1622 10

The heart very often becomes a victim of endocrine abnormalities such as thyroid hormone imbalance and insulin deficiency, which are manifested in a broad spectrum of cardiac dysfunction from mildly compromised function to severe heart failure. These functional changes in the heart are largely independent of alterations in the coronary arteries and instead reside at the level of cardiomyocytes. The status of cardiac function reflects the net of underlying subcellular modifications induced by an increase or decrease in thyroid hormone and insulin plasma levels. Changes in the contractile and regulatory proteins constitute molecular and structural alterations in myofibrillar assembly, called myofibrillar remodeling. These alterations may be adaptive or maladaptive with respect to the functional and metabolic demands on the heart as a consequence of the altered endocrine status in the body. There is a substantial body of information to indicate alterations in myofibrillar proteins including actin, myosin, tropomyosin, troponin, titin, desmin, and myosin-binding protein C in conditions such as hyperthyroidism, hypothyroidism, and diabetes. The present article is focussed on discussion how myofibrillar proteins are altered in response to thyroid hormone imbalance and lack of insulin or its responsiveness, and how their structural and functional changes explain the contractile defects in the heart.
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PMID:Molecular defects in cardiac myofibrillar proteins due to thyroid hormone imbalance and diabetes. 1646 7

Activation of either coexisting beta1- or beta2 -adrenoceptors with noradrenaline or adrenaline, respectively, causes maximum increases of contractility of human atrial myocardium. Previous biochemical work with the beta2 -selective agonist zinterol is consistent with activation of the cascade beta2 -adrenoceptors-->Gsalpha-protein-->adenylyl cyclase-->cAMP-->protein kinase (PKA)-->phosphorylation of phospholamban, troponin I, and C-protein-->hastened relaxation of human atria from nonfailing hearts. However, in feline and rodent myocardium, catecholamines and zinterol usually do not hasten relaxation through activation of beta2 -adrenoceptors, presumably because of coupling of the receptors to Gi protein. It is unknown whether the endogenously occurring beta2 -adrenoceptor agonist adrenaline acts through the above cascade in human atrium and whether its mode of action could be changed in heart failure. We assessed the effects of (-)-adrenaline, mediated through beta2 -adrenoceptors (in the presence of CGP 20712A 300 nM to block beta1 -adrenoceptors), on contractility and relaxation of right atrial trabecula obtained from nonfailing and failing human hearts. Cyclic AMP levels were measured as well as phosphorylation of phospholamban, troponin I, and protein C with Western blots and the back-phosphorylation procedure. For comparison, beta1 -adrenoceptor-mediated effects of (-)-noradrenaline were investigated in the presence of ICI 118,551 (50 nM to block beta2 -adrenoceptors). The positive inotropic effects of both (-)-noradrenaline and (-)-adrenaline were accompanied by reductions in time to peak force and time to reach 50% relaxation. (-)-Adrenaline caused similar positive inotropic and lusitropic effects in atrial trabeculae from failing hearts. However, the inotropic potency, but not the lusitropic potency, of (-)-noradrenaline was reduced fourfold in atrial trabeculae from heart failure patients. Both (-)-adrenaline and (-)-noradrenaline enhanced cyclic AMP levels and produced phosphorylation of phospholamban, troponin I, and C-protein to a similar extent in atrial trabeculae from nonfailing hearts. The hastening of relaxation caused by (-)-adrenaline together with the PKA-catalyzed phosphorylation of the three proteins involved in relaxation, indicate coupling of beta2 -adrenoceptors to Gs protein. The phosphorylation of phospholamban at serine16 and threonine17 evoked by (-)-adrenaline through beta2 -adrenoceptors and by (-)-noradrenaline through beta1 -adrenoceptors was not different in atria from nonfailing and failing hearts. Activation of beta2 -adrenoceptors caused an increase in phosphorylase a activity in atrium from failing hearts further emphasizing the presence of the beta2 -adrenoceptor-Gsalpha-protein pathway in human heart. The positive inotropic and lusitropic potencies of (-)-adrenaline were conserved across Arg16Gly- and Gln27Glu-beta2 -adrenoceptor polymorphisms in the right atrium from patients undergoing coronary artery bypass surgery, chronically treated with beta1 -selective blockers. The persistent relaxant and biochemical effects of (-)-adrenaline through beta2 -adrenoceptors and of (-)-noradrenaline through beta1 -adrenoceptors in heart failure are inconsistent with an important role of coupling of beta2 -adrenoceptors with Gialpha-protein in human atrial myocardium.
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PMID:(-)-Adrenaline elicits positive inotropic, lusitropic, and biochemical effects through beta2 -adrenoceptors in human atrial myocardium from nonfailing and failing hearts, consistent with Gs coupling but not with Gi coupling. 1729 24

Hypertrophic cardiomyopathy is typically inherited in an autosomal dominant pattern and has a variable age of onset and prognosis. Mutations in the myosin-binding protein C (MYBPC3) gene are one of the most frequent genetic causes of the disease. Patients with MYBPC3 mutations generally have a late onset and a relatively good prognosis. We report here more than 20 Old Order Amish children with severe neonatal hypertrophic cardiomyopathy caused by a novel homozygous splice site mutation in the MYBPC3 gene. The affected children typically presented with signs and symptoms of congestive heart failure during the first 3 weeks of life. Echocardiography revealed hypertrophic non-obstructive cardiomyopathy. These children had a life span averaging 3-4 months. All patients died from heart failure before 1 year of age unless they received a heart transplant. A genome-wide mapping study was performed in three patients. The disease related gene was localized to a 4.6 Mb region on chromosome 11p11.2-p11.12. This homozygous block contained MYBPC3, a previously identified cardiomyopathy related gene. We identified a novel homozygous mutation, c.3330 + 2T > G, in the splice-donor site of MYBPC3 intron 30. The mutation resulted in skipping of the 140-bp exon 30, which led to a frame shift and premature stop codon in exon 31 (p.Asp1064GlyfsX38). We have found a substantial incidence of this phenotype in Old Order Amish communities. It is also concerning that many unidentified heterozygous individuals who are at risk for development of hypertrophic cardiomyopathy do not receive proper medical attention in the communities.
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PMID:Homozygosity for a novel splice site mutation in the cardiac myosin-binding protein C gene causes severe neonatal hypertrophic cardiomyopathy. 1793 28

Management of acute coronary syndromes, particularly unstable angina, acute myocardial infarction and non-Q-wave myocardial infarction, is one of the most common and costly problems facing modern medicine. Furthermore, the increasing availability of new research and clinical information relevant to the treatment of these conditions means that continuing reappraisal of management strategies is necessary. Accordingly, the Ushuaia conference, Tierra Del Fuego, Argentina, was convened to discuss current approaches and future treatment prospects for patients with these conditions. The conference was comprised of leading Argentinian cardiologists whose primary aim was to formulate consensus recommendations regarding the management of patients with acute coronary syndromes. The first of the major recommendations for the pharmacological management of acute coronary syndromes arising from the Ushuaia Consensus Conference was that aspirin (200 to 500mg initially, then 100 to 325 mg/day) should be administered to all patients except those for whom aspirin is absolutely (or relatively, depending on the clinician's discretion) contraindicated. In such cases, ticlopidine is a suitable alternative. Intravenous nitrates are indicated for patients with angina pain (24 to 48 hours' duration), ECG changes, recurrence of angina, or signs of heart failure; in other cases, oral, transdermal or sublingual nitrates may be administered. Use of beta-blockers is recommended except when absolutely contraindicated or when there is a strong suspicion of vasospasm as a dominant mechanism in angina. Intravenous administration of these agents is preferred in patients with tachycardia, arterial hypertension or angina. Calcium antagonists are generally not recommended as first choice therapy, but can be indicated (preferably using agents that decrease heart rate) when beta-blockers are contraindicated or when there is a strong suspicion of vasospasm as a dominant mechanism in angina. Calcium antagonists are also useful in combination with other drugs in patients with high blood pressure or treatment-refractory recurrent angina. Subcutaneous low molecular weight heparins and intravenous unfractionated heparin provide similar results and are indicated in a number of clinical situations. Emergency videocoronary angiography (VCA) is indicated in patients with persistent clinical and haemodynamic instability, recurrent ischaemia with heart failure, and refractory angina. Patients should also be referred for VCA if they have signs of left ventricular dysfunction, post-acute myocardial infarction angina with ECG changes, or ischaemia during functional studies. Post-VCA treatment will be determined by anatomical findings during VCA. Future prospects in the management of acute coronary syndromes include the development of more accurate prognostic markers and means of stratifying risk, such as sophisticated ECG criteria, serum markers of necrosis (e.g. troponin T and I), markers of thrombosis (e.g. D-dimer and fibrinopeptide A levels), markers of inflammation (e.g. reactive protein C, cell adhesion receptor expression, neopterine), and markers of 'good' prognosis (e.g. interleukin-10). Other pharmacological approaches under investigation include platelet IIb/IIIa receptor antagonists, clopidogrel and hirudin. Novel agents, such as anti-Xa, pentasaccharide, anti-tissue factor compounds, Ib receptor-blocking agents, agents that influence vascular endothelium and control cellular acidosis (e.g. HOE 642), macrolide antibiotics, HLA-DR system blockers and fusion compounds, are also in various stages of investigation or development.
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PMID:Current treatment and future prospects for the management of acute coronary syndromes: consensus recommendations of the 1997 ushuaia conference, tierra del fuego, Argentina. 1837 Apr 92

Phosphorylation of myosin binding protein C (MyBP-C) was investigated in intraventricular septum samples taken from patients with hypertrophic cardiomyopathy undergoing surgical septal myectomy. These samples were compared with donor heart muscle, as a well-characterised control tissue, and with end-stage failing heart muscle. MyBP-C was partly purified from myofibrils using a modification of the phosphate-EDTA extraction of Hartzell and Glass. MyBP-C was separated by SDS-PAGE and stained for phosphoproteins using Pro-Q Diamond followed by total protein staining using Coomassie Blue. Relative phosphorylation level was determined from the ratio of Pro-Q Diamond to Coomassie Blue staining of MyBP-C bands as measured by densitometry. We compared 9 myectomy samples and 9 failing heart samples with 9 donor samples. MyBP-C phosphorylation in pathological muscle was lower than in donor (myectomy 40+/-2% of donor, P<0.0001; failing 45+/-3% of donor, P<0.0001). 6 myectomy samples were identified with MYBPC3 mutations, one with MYH7 mutation and two remained unknown, but there was no correlation between MYBPC3 mutation and MyBP-C phosphorylation level. In order to determine the number of phosphorylated sites in human cardiac MyBP-C samples, we phosphorylated the recombinant MyBP-C fragment, C0-C2 (1-453) with PKA using (gamma32)P-ATP up to 3.5 mol Pi/mol C0-C2. This measurement of phosphorylation was used to calibrate measurements of phosphorylation in SDS-PAGE using Pro-Q Diamond stain. The level of phosphorylation in donor heart MyBP-C was calculated to be 4.6+/-0.6 mol Pi/mol and 2.0+/-0.3 mol Pi/mol in myectomy samples. We conclude that MyBP-C is a highly phosphorylated protein in vivo and that diminished MyBP-C phosphorylation is a feature of both end-stage heart failure and hypertrophic cardiomyopathy.
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PMID:Myosin binding protein C phosphorylation in normal, hypertrophic and failing human heart muscle. 1857 60

Acute respiratory distress syndrome and acute lung injury for a part of a devastating syndrome characterized by acute onset, hypoxemia and bilateral infiltrates in the chest x-ray with absence of heart failure signs. Acute lung injury is the response of the lung to a local or systemic aggression, resulting in local inflammation and coagulation disorders, this leading to increased inflammatory pulmonary edema. Acute lung injury/acute respiratory distress syndrome are associated with increased procoagulant and reduced fibrinolytic activities mainly in alveoli and interstitial spaces in the lung. Fibrin deposits, which are the hallmark of early phase acute lung injury, stimulate fibroblast aggregation and collagen secretion, participating to the constitution of pulmonary fibrosis. The only clinical intervention found to have a significant impact on mortality in acute respiratory distress syndrome, despite the significant pro - gress in the understanding of the disease made over the past 10 years, is the use of low tidal volume ventilation. In severe sepsis, only recombinant human activated protein C administration has demonstrated a mortality reduction, together with faster improvement in respiratory dysfunction and shorter duration of mechanical ventilation. Future clinical trials should consider the potential benefit of anticoagulants administrated systemically or locally in the lungs to determine the role of anticoagulants in the treatment of acute pulmonary injury/acute respiratory distress syndrome.
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PMID:[Role of coagulation in acute pulmonary lesion physiopathology. Parallelism with sepsis]. 1860 38

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