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)

The interaction between troponin C (TnC) and troponin I (TnI) is essential for the regulation of muscle contraction. There are several binding sites for TnI on TnC that are differentially occupied depending on the phase of the contraction/relaxation cycle. TnI and TnC interact in an antiparallel fashion with each other. The C-domain of cTnC and the N-domain region of cTnI(residues 33-70) always interact under physiological conditions, whereas the interaction between regulatory regions of TnC and TnI (residues 128-166) is calcium dependent. Previously, it has been shown that levosimendan, a calcium sensitizer used as a treatment for acute heart failure, can interact with both domains of isolated cTnC. To understand which interaction is relevant for the mechanism of calcium sensitization, we used a more complete troponin model obtained by complexing cTnI(32-79) and cTnI(128-180) with calcium-saturated cTnC(CS). The cTnI peptides bound to cTnC(CS) to form a 1:1:1 complex. The interaction of levosimendan with this complex was followed by 1H-(15)N heteronuclear correlation spectroscopy. It was clear that based on chemical shift changes, cTnI(32-79) blocked the levosimendan interaction sites on the C-domain, whereas cTnI(128-180) did not compete with levosimendan for the binding site on the N-domain. Hence, the effective binding site of levosimendan on cTnC resulting in the calcium-sensitizing effect is located in the regulatory domain (N-domain).
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PMID:Interaction of levosimendan with cardiac troponin C in the presence of cardiac troponin I peptides. 1296 22

We used double-knockout mice (ABKO) lacking both predominant myocardial alpha(1)-adrenergic receptor (AR) subtypes (alpha(1A) and alpha(1B)) to determine if alpha(1)-ARs are required for normal myocardial contraction. Langendorff-perfused ABKO hearts had higher developed pressure than wild type (WT) hearts (123 +/- 3 mmHg n = 22 vs. 103 +/- 3 mmHg, n = 38, P < 0.001). Acutely inhibiting alpha(1)-ARs in WT hearts with prazosin did not increase pressure, suggesting that the increased pressure of ABKO hearts was mediated by long-term trophic effects on contraction rather than direct regulatory effects of alpha(1)-AR removal. Similar to perfused hearts, ABKO ventricular trabeculae had higher submaximal force at 2 mM extracellular [Ca(2+)] than WT (11.4 +/- 1.7 vs. 6.9 +/- 0.6 mN/mm(2), n = 8, P < 0.05); however, the peaks of fura-2 Ca(2+) transients were not different (0.79 +/- 0.11 vs. 0.75 +/- 0.16 microM, n = 10-12, P > 0.05), suggesting ABKO myocardium had increased myofilament Ca(2+)-sensitivity. This conclusion was supported by measuring the Ca(2+)-force relationship using tetanization. Increased myofilament Ca(2+)-sensitivity was not explained by intracellular pH, which did not differ between ABKO and WT (7.41 +/- 0.01 vs. 7.39 +/- 0.02, n = 4-6, P > 0.05; from BCECF fluorescence). However, ABKO displayed impaired troponin I phosphorylation, which may have played a role. In contrast to increased submaximal force, ABKO trabeculae had lower maximal force than WT at high extracellular [Ca(2+)] (29.6 +/- 1.9 vs. 37.6 +/- 1.4 mN/mm(2), n = 7, P < 0.01). However, peak cytosolic [Ca(2+)] was not different (1.13 +/- 0.15 vs. 1.19 +/- 0.04 microM, n = 6-7, P > 0.05), suggesting ABKO myocardium had impaired myofilament function. Finally, ABKO myocardium had decreased responsiveness to beta-AR stimulation. We conclude: alpha(1)-ARs are required for normal myocardial contraction; alpha(1)-ARs mediate long-term trophic effects on contraction; loss of alpha(1)-AR function causes some of the functional abnormalities that are also found in heart failure.
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PMID:Abnormal myocardial contraction in alpha(1A)- and alpha(1B)-adrenoceptor double-knockout mice. 1451 27

A patient with a two-year history of worsening asthma presented with chest pain and shortness of breath. She developed cardiogenic shock. Analysis of blood chemistry detected increased troponin I concentration. Her electrocardiographic changes were consistent with a diagnosis of anteroseptal myocardial infarction. However, angiography showed normal coronary arteries. Left ventriculography showed severe mitral regurgitation and global hypokinesis. Peripheral eosinophilia was detected. Subsequent endomyocardial biopsy showed myocarditis with prominent eosinophil and plasma cell components. Churg-Strauss syndrome was diagnosed based on her history of asthma, evidence of peripheral eosinophilia and results of endomycardial biopsy. Treatment with a high dose of corticosteroids was initiated. As symptoms of heart failure improved - without recurrence of cardiac and respiratory symptoms - the dose of corticosteroids was gradually reduced. Eight months after her original presentation, she developed urticarial lesions on her abdomen and legs, with muscle soreness but no other associated symptoms. She was treated with a combination of prednisone and dapsone. After the diagnosis of Churg-Strauss syndrome, the patient remained symptom free with a normal ejection fraction for 15 months while taking prednisone.
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PMID:Churg-Strauss syndrome with myocarditis manifesting as acute myocardial infarction with cardiogenic shock: case report and review of the literature. 1453 45

The physiopathological mechanisms resulting in increased left ventricular pressures in acute cardiac failure with normal systolic function are not well understood. Although coronary artery disease is commonly associated with acute episodes, the diagnostic value of troponin I measurement and the prevalence of ischaemia as the predisposing factor are not known. Twenty coronary patients (mean age 77 +/- 9 years) in acute cardiac failure with left ventricular ejection fractions of 50% or over and without angina, were studied retrospectively. The diagnostic value of troponin I (cTnI, AxSYM, method) was assessed by comparing with a control group of 16 acute cardiac failure patients without coronary disease. The frequency of hypertension and diabetes in the coronary group was 50 and 45% respectively. At the time of investigation, the pulmonary capillary and systemic arterial pressures were comparable in the coronary patients irrespective of the cTnl value. At threshold levels of 0.5 microgram/l, cTnl had a specificity of 100% and confirmed ischaemia in 60% of the coronary patients. Ischaemia was the commonest predisposing factor for increased cardiac pressures. Over a 268 +/- 101 days follow-up period, half the coronary patients were readmitted for acute cardiac failure and a third of them died. The authors conclude that silent ischaemia is a common predisposing factor for acute cardiac failure in coronary patients with normal systolic function and troponin I measurement is a useful diagnostic help.
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PMID:[Silent ischemia and acute cardiac insufficiency with normal systolic function: diagnostic value of troponin I measurement]. 1457 38

Creatine kinase-MB (CK-MB) and troponin I elevations after successful percutaneous coronary intervention (PCI) are common, and different gradations have been correlated with mortality. To establish which of these 2 markers of myonecrosis, CK-MB and troponin I, accurately predicts mortality after successful PCI, we analyzed 2,873 patients without acute myocardial infarction who underwent PCI for in-hospital events and mid-term mortality. Patients were stratified into 4 groups based on peak post-PCI cardiac markers values: group I: normal CK-MB (<16 U/L) or troponin I (<2 ng/ml); group II: CK-MB or troponin I levels 1 to 3 times normal; group III: >3 to 5 times normal; and group IV: >5 times normal. CK-MB elevation occurred in 16.1% of patients, with 12.2%, 2.3%, and 1.6% in groups II to IV, respectively. Troponin I elevation was detected in 38.9% of patients, with 16.4%, 8.4%, and 14.1% in groups II to IV, respectively. There was poor correlation between postprocedural CK-MB and troponin I values (r = 0.10) and in their individual subgroups. Kaplan-Meier estimates of death for postprocedure CK-MB were 2.1%, 2.7%, 1.7%, and 10.3% (p = 0.002) for groups I to IV, respectively; for troponin I, these estimates were 2.2%, 2.3%, 2.9%, and 2.1% for groups I to IV, respectively (p = 0.58). A Cox proportional hazards model showed that CK-MB >5 times normal was the strongest predictor of mortality (hazard ratio 6.7, 95% confidence interval 1.9 to 22.9; p = 0.002), although heart failure, peripheral vascular disease, pre-PCI digoxin therapy, and post-PCI renal failure also predicted mortality. However, neither troponin I peak elevation nor any subgroup predicted mortality. Troponin I is frequently elevated after PCI, but does not predict mortality. Periprocedural CK-MB elevation >5 times normal remains an independent predictor of mid-term mortality and a valuable marker for PCI prognosis in low-to-medium risk patients.
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PMID:Correlation of postpercutaneous coronary intervention creatine kinase-MB and troponin I elevation in predicting mid-term mortality. 1469 60

Acute beta-adrenergic stimulation enhances cardiac contractility, accelerates muscle relaxation, and amplifies the inotropic and lusitropic response to increased stimulation frequency. These effects are modulated by phosphorylation of calcium handling and myofilament proteins such as troponin I (TnI) by protein kinase A (PKA). To more directly delineate the role of TnI PKA phosphorylation, transgenic mice were generated that overexpress cardiac TnI in which the serine residues normally targeted by PKA are mutated to aspartic acid to mimic constitutive phosphorylation (TnIDD22,23). Native cardiac TnI was near completely replaced in one transgenic line as assessed by in vitro phosphorylation, and this led to reduced calcium sensitivity of myofibrillar MgATPase, as expected. TnIDD22,23 mice had mildly enhanced basal systolic and diastolic function, and displayed marked augmentation of frequency-dependent inotropy and relaxation, with a peak frequency response 2-fold greater in mutants than controls (P<0.005). Increasing afterload prolonged relaxation more in nontransgenic than TnIDD22,23 (P<0.02), whereas contractile responses to afterload were similar between these strains. Isoproterenol treatment eliminated the differential force-frequency and afterload response between TnIDD22,23 and controls. In contrast to in vivo studies, isolated isometric trabeculae from nontransgenic and TnIDD22,23 mice had similar basal, isoproterenol-, and frequency-stimulated function, suggesting that muscle shortening may be important to TnI PKA effects. These results support a novel role for cardiac TnI PKA phosphorylation in the rate-dependent enhancement of systolic and diastolic function in vivo and afterload sensitivity of relaxation. These results have implications for cardiac failure in which force-frequency modulation is blunted and afterload relaxation sensitivity increased in association with diminished PKA TnI phosphorylation.
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PMID:Frequency- and afterload-dependent cardiac modulation in vivo by troponin I with constitutively active protein kinase A phosphorylation sites. 1472 77

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

Beneficial actions of nitric oxide (NO) in failing myocardium have frequently been overshadowed by poorly documented negative inotropic effects mainly derived from in vitro cardiac preparations. NO's beneficial actions include control of myocardial energetics and improvement of left ventricular (LV) diastolic distensibility. In isolated cardiomyocytes, administration of NO increases their diastolic cell length consistent with a rightward shift of the passive length-tension relation. This shift is explained by cGMP-induced phosphorylation of troponin I, which prevents calcium-independent diastolic cross-bridge cycling and concomitant diastolic stiffening of the myocardium. Similar improvements in diastolic stiffness have been observed in isolated guinea pig hearts, in pacing-induced heart failure dogs, and in patients with dilated cardiomyopathy or aortic stenosis and have been shown to result in higher LV preload reserve and stroke work. NO also controls myocardial energetics through its effects on mitochondrial respiration, oxygen consumption, and substrate utilization. The effects of NO on diastolic LV performance appear to be synergistic with its effects on myocardial energetics through prevention of myocardial energy wastage induced by LV contraction against late-systolic reflected arterial pressure waves and through prevention of diastolic LV stiffening, which is essential for the maintenance of adequate subendocardial coronary perfusion. A drop in these concerted actions of NO on diastolic LV distensibility and on myocardial energetics could well be instrumental for the relentless deterioration of failing myocardium.
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PMID:Nitric oxide's role in the heart: control of beating or breathing? 1521 Apr 49

The prevalence of coronary artery disease was investigated in 18 patients hospitalized for acute diastolic heart failure without clinical and electrocardiographic evidence of myocardial ischemia on admission. On the basis of coronary angiography, 7 patients had coronary artery disease and 4 had ischemic heart disease. In addition, besides uncontrolled hypertension and several systemic factors, silent myocardial ischemia potentially contributed to acute exacerbation of heart failure for at least 5 patients with coronary artery disease, according to either elevation in troponin I or segmental wall motion abnormalities.
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PMID:Prevalence of angiographic coronary artery disease in patients hospitalized for acute diastolic heart failure without clinical and electrocardiographic evidence of myocardial ischemia on admission. 1521 26

The "stretch-sensitization" response is essential to the regulation of heart contractility. An increase in diastolic volume improves systolic contraction. The cellular mechanisms of this modulation, the Frank-Starling law, are still uncertain. Moreover, their alterations in heart failure remains controversial. Here, using left ventricular skinned rat myocytes, we show a nonuniform stretch-sensitization of myofilament activation across the ventricular wall. Stretch-dependent Ca2+ sensitization of myofilaments increases from sub-epicardium to sub-endocardium and is correlated with an increase in passive tension. This passive tension-dependent component of myofibrillar activation is not associated with expression of titin isoforms, changes in troponin I level, and phosphorylation status. Instead, we observe that stretch induces phosphorylation of ventricular myosin light chain 2 isoform (VLC2b) in sub-endocardium specifically. Thus, VLC2b phosphorylation could act as a stretch-dependent modulator of activation tuned within normal heart. Moreover, in postmyocardial infarcted rat, the gradient of stretch-dependent Ca2+ sensitization disappears associated with a lack of VLC2b phosphorylation in sub-endocardium. In conclusion, nonuniformity is a major characteristic of the normal adult left ventricle (LV). The heterogeneous myocardial deformation pattern might be caused not only by the morphological heterogeneity of the tissue in the LV wall, but also by the nonuniform contractile properties of the myocytes across the wall. The loss of a contractile transmural gradient after myocardial infarction should contribute to the impaired LV function.
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PMID:Transmural stretch-dependent regulation of contractile properties in rat heart and its alteration after myocardial infarction. 1549 94

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