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)

We have recently identified a novel amino-terminal fragment of pro-brain natriuretic peptide (NT-proBNP) in the circulation of humans, the concentration of which increases progressively as the left ventricle fails. To clarify the origins of NT-proBNP in experimental animals, we have developed an RIA for NT-proBNP based on residues 52-71 of ovine proBNP-(1-103) and used it to study cardiac processing, secretion, and metabolism of BNP in sheep with cardiac overload induced by coronary artery ligation (CAL) or rapid left ventricular pacing (rLVP). The concentration of NT-proBNP in left atrial plasma extracts drawn from normal control sheep was threefold that of mature BNP. Size-exclusion and reverse-phase HPLC analyses of plasma extracts coupled to RIA revealed a single peak of immunoreactive (ir) NT-proBNP [ approximately 8,000 relative molecular weight (Mr)], quite distinct from a single peak of ir-mature BNP ( approximately 3,000 Mr). In contrast, ovine cardiac tissue contained only a single immunoreactive peak of high-molecular-weight BNP ( approximately 11,000 Mr), consistent in size with proBNP-(1-103). Sampling from the cardiac coronary sinus in normal control sheep (n = 5) and sheep with CAL (n = 5) revealed that the molar ratio of NT-proBNP to mature BNP was similar. There was a significant gradient of both mature and NT-proBNP across the heart in normal sheep, whereas after CAL the gradient was significant for mature BNP only. In both forms of cardiac overload (CAL and rLVP), left atrial plasma levels of NT-proBNP were significantly increased above normal levels, in contrast with mature BNP levels, which were raised only in the rLVP group of animals. Blockade of natriuretic peptide metabolism in sheep with heart failure (induced by rLVP) raised mature BNP levels threefold but did not affect levels of NT-proBNP. In conclusion, these studies show that NT-proBNP is formed from proBNP stores during secretion and, compared with mature BNP, accumulates in plasma because metabolism of NT-proBNP appears to differ from that of mature BNP. Although its function, if any, remains unclear, plasma NT-proBNP may prove to be a sensitive marker of cardiac overload and/or decompensation.
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PMID:Amino-terminal proBNP in ovine plasma: evidence for enhanced secretion in response to cardiac overload. 974 67

In addition to cardiac myocyte hypertrophy, proliferation and increased extracellular matrix production of cardiac fibroblasts occur in response to cardiac overload. This remodeling of the cardiac interstitium is a major determinant of pathologic hypertrophy leading to ventricular dysfunction and heart failure. Atrial and brain natriuretic peptides (ANP and BNP) are cardiac hormones produced primarily by the atrium and ventricle, respectively. Plasma ANP and BNP concentrations are elevated in patients with hypertension, cardiac hypertrophy, and acute myocardial infarction, suggesting their pathophysiologic roles in these disorders. ANP and BNP exhibit diuretic, natriuretic, and vasodilatory activities via a guanylyl cyclase-coupled natriuretic peptide receptor subtype (guanylyl cyclase-A or GC-A). Here we report the generation of mice with targeted disruption of BNP (BNP-/- mice). We observed focal fibrotic lesions in ventricles from BNP-/- mice with a remarkable increase in ventricular mRNA expression of ANP, angiotensin converting enzyme (ACE), transforming growth factor (TGF)-beta3, and pro-alpha1(I) collagen [Col alpha1(I)], which are implicated in the generation and progression of ventricular fibrosis. Electron microscopic examination revealed supercontraction of sarcomeres and disorganized myofibrils in some ventricular myocytes from BNP-/- mice. No signs of cardiac hypertrophy and systemic hypertension were noted in BNP-/- mice. In response to acute cardiac pressure overload induced by aortic constriction, massive fibrotic lesions were found in all the BNP-/- mice examined, accompanied by further increase of mRNA expression of TGF-beta3 and Col alpha1(I). We postulate that BNP acts as a cardiocyte-derived antifibrotic factor in the ventricle.
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PMID:Brain natriuretic peptide appears to act locally as an antifibrotic factor in the heart. 1155 81

B-type natriuretic peptide (BNP) plasma concentrations are raised in patients with heart failure. In several experimental models of cardiac overload, however, BNP mRNA and plasma BNP peptide levels are normal, despite the persistent increase in blood pressure and ventricular hypertrophy. In this study, the role of transcriptional mechanisms in the regulation of BNP gene expression were studied in angiotensin (Ang) II-induced hypertension by injecting DNA constructs containing the BNP promoter (-2200 to 75 bp of the transcriptional start site) linked to luciferase reporter into rat myocardium. Ang II was administered to conscious rats via intravenous infusion for 2 hours or by subcutaneous minipumps for 6 hours, 12 hours, 3 days, 1 week, and 2 weeks. Ang II increased blood pressure and cardiac mass and induced changes in diastolic function. The left ventricular BNP mRNA levels increased 2.2-fold (P<0.001) at 2 hours and peaked at 12 hours (5.2-fold, P<0.001). Thereafter, BNP mRNA levels decreased (1.8-fold induction at 3 days, P<0.05) and returned to control levels at 1 week, despite persistent hypertension and myocardial hypertrophy. Left ventricular BNP peptide concentrations followed the changes in BNP mRNA levels. The BNP promoter was activated 2.7-fold (P<0.05) at 2 hours and remained upregulated up to 2 weeks (2.8-fold, P<0.05) during Ang II infusion, except at 12 hours. These results indicate that posttranscriptional control plays a major role in the regulation of ventricular BNP gene expression in Ang II-induced hypertension.
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PMID:Posttranscriptional control of BNP gene expression in angiotensin II-induced hypertension. 1189 68

The concept of reversible cardiac failure has hitherto been applicable mostly to rare instances of acute afflictions of the myocardium wherein cardiac compensation returns with the healing of the process. Recent strides in cardiac surgery have brought into focus a wide variety of conditions where operative removal of the cause of heart failure can successfully restore compensation. The concept of increased work of the heart-cardiac overload-is presented and classified with special reference to those forms where surgical removal of the cause of the overload is possible.Now, since surgical treatment of a patient in functional class IV need no longer entail risk of prohibitive mortality, a careful search is indicated in patients in a state of chronic cardiac failure, particularly in the younger age group, for a correctable factor or factors.
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PMID:Correctable cardiac failure. 1391 May 34

Cardiac hypertrophy is an early landmark during the clinical course of heart failure, and is an important risk factor for subsequent morbidity and mortality. The hypertrophy response to different types of cardiac overload is distinguished both at the molecular and cellular levels. These changes have been extensively characterized for pressure load hypertrophy; however, similar information for volume load hypertrophy is still needed. This study was undertaken to improve the existing method of producing experimental cardiac volume load. Previous investigators have employed surgical aorto-caval shunt (ACS) as a model for volume load hypertrophy (VO) in rats. The procedure is relatively simple and involves glue to seal the aortic hole after ACS. However, it has several limitations mostly related to the use of glue e.g. poor visualization due to hardening of tissues, imperfect sealing of the puncture site and glue seeping through the aortic hole resulting in shunt occlusion. We have modified the procedure using aortic adventitial suture instead of glue and 18G angiocatheter instead of 16G needle, which eliminated the technical difficulties from the former method. The ACS was visually confirmed at sacrifice, and the VO demonstrated by time-related changes in the heart weight/body weight ratio which increased from 78% at 4 weeks to 87% at 10 weeks and increased liver/body weight ratio by 22% at 10 weeks of post aorto-caval shunt. Cardiac expression of atrial natriuretic peptide (ANF) also demonstrated time-related increase in ANF mRNA (+275% increase at 4 weeks, p < 0.05, and +370% increase at 10 weeks, p < 0.001). This modified technique of aorto-caval shunt offers simpler, reproducible and consistent model for VO hypertrophy in rats.
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PMID:Revisiting the surgical creation of volume load by aorto-caval shunt in rats. 1457 15

Much of the understanding about the pathophysiological responses to chronic cardiac overload has been gained by the use of rat and dog models of aortocaval fistula (ACF). The use of a similar model in genetically manipulated mice may further elucidate the molecular mechanisms in these responses. The only reports about ACF in mice to date have applied a needle puncture to create the ACF, which may result in an uncontrolled and irreproducible size of the shunt, and require several weeks to induce the characteristic cardiac changes. In order to obtain a more consistent approach to characterize this mode of cardiac hyperfunction, we present a surgical murine model of ACF that results in rapid progression of the typical systemic and cardiac changes. A sutureless side-to-side infrarenal surgical anastomosis of 0.6-0.8 mm in diameter was created between the abdominal aorta and inferior vena cava in ICR (Institute of Cancer Research) mice. Six to 7 days later, significant cardiac hypertrophy developed. The heart/body weight ratio increased from 0.45 +/- 0.02% in control mice to 0.77 +/- 0.03% in mice with ACF (p < .003). The dry heart weight ratio increased from 0.099 +/- 0.0033% to 0.13 +/- 0.008% (p < .006). The ACF dramatically induced the atrial and ventricular expression of atrial natriuretic factor mRNA, and increased the total cardiac content of endothelin-1 (162.5 +/- 50.6 vs. 83.9 +/- 9.0 pg). Mean arterial pressure in anesthetized mice with ACF decreased from 69.8 +/- 4.9 to 54.8 +/- 5.5 mm Hg (p < .025). Urinary sodium excretion returned to preoperative levels several days following surgery. These results demonstrate that cardiac hypertrophy could be rapidly and reproducibly achieved in mice by the placement of a surgical ACF. This model, when applied in genetically manipulated mice, may be a valuable tool for functional genomic studies about the pathogenesis of cardiac hypertrophy and heart failure.
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PMID:Induction of cardiac hypertrophy by a controlled reproducible sutureless aortocaval shunt in the mouse. 1631 54

Plasma and myocardial levels of proinflammatory cytokines such as tumor necrosis factor(TNF)-alpha, interleukin 1beta, and interleukin 6 are elevated in patients with heart failure. Not only viral infection but also cardiac overload, ischemia, and neuro-humoral factors stimulate systemic and myocardial production of these cytokines. Administration of proinflammatory cytokines directly depresses myocardial contractility in vitro and in vivo. In addition, TNF and interleukin induce myocardial apoptosis and promote cardiac hypertrophy and fibrosis, suggesting that these cytokines are involved in the progression of cardiac remodeling. Vasoactive peptides such as endothelin and adrenomedullin also have cytokine-like functions in the heart, acting as autocrine and paracrine factors. Thus, proinflammatory cytokines and these peptides play important roles in the pathogenesis and pathophysiology of heart failure.
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PMID:[Pathophysiological role of cytokines in heart failure]. 1668 63

Hospitals are constantly besieged with congestive heart failure admissions. Current studies show that the advent of the B-type natriuretic peptide (BNP) rapid assay as a quick and easy blood test is beneficial to nurses in confirming the diagnosis of heart failure. B-type natriuretic peptide is a neurohormone produced by the failing heart in response to increased volume and cardiac overload. The BNP rapid assay measures the presence of BNP levels present in the circulating bloodstream to confirm the diagnosis of congestive heart failure. It is a simple blood test that can be done at the bedside or at the clinic so it is a valid point-of-care modality. Elevated levels suggest severity of heart failure and possibility of sudden death. This article focuses on the description of the diagnostic performance of the BNP rapid assay, its clinical dimensions, and its implications to nursing practice and collaborative practice models.
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PMID:B-type natriuretic peptide rapid assay: a diagnostic test for heart failure. 1686 58

The streptozotocin (STZ)-treated rat is a widely studied experimental model of diabetes mellitus (DM). Its pathophysiology includes hypoinsulinemia, hyperglycemia, cardiac hypertrophy, and a cardiomyopathy that is characterized by the presence of diastolic and/or systolic contractile dysfunction. As part of their endocrine function cardiomyocytes in the heart produce and secrete a family of related peptide hormones called the natriuretic peptides that include A-type natriuretic peptide (ANP) and B-type natriuretic peptide (BNP). ANP and BNP levels are variously augmented in patients with hypertension, cardiac overload, in the ventricles of failing or hypertrophied heart, in cardiac heart failure, in acute myocardial infarction (MI), and in some circumstances in DM. In this article, the effects of BNP on ventricular myocyte contraction and Ca2+ transport in STZ-induced diabetic rats have been investigated. BNP concentration was significantly increased in blood plasma and in atrial muscle in STZ-induced diabetic rats compared to age-matched controls. BNP was 11.9 +/- 0.9 ng/mL in plasma from diabetic rats compared to 6.7 +/- 1.6 ng/mL in controls and 15.8 +/- 2.0 ng/mg protein in diabetic atrial muscle compared to 8.5 +/- 1.0 ng/mg protein in controls. The heart weight to body weight ratio, an indicator of hypertrophy, was significantly increased in diabetic rat heart (4.3 +/- 0.1 mg/g) compared to controls (3.7 +/- 0.04 mg/g). The amplitude of shortening was not significantly altered in diabetic myocytes (10.3 +/- 0.4%) compared to controls (10.9 +/- 0.4%). BNP reduced the amplitude of shortening to a greater extent in diabetic myocytes (8.1 +/- 0.6%) compared to controls (10.1 +/- 0.4%). The time to peak (TPK) shortening was significantly prolonged in diabetic myocytes (254 +/- 8 ms) compared to controls (212 +/- 5 ms) and was not additionally altered by BNP. The time to half relaxation of shortening was also significantly prolonged in diabetic myocytes (131 +/- 8 ms) compared to controls (111 +/- 5 ms). BNP (10(-8) to 10(-6) M) normalized the time to half relaxation of shortening in diabetic myocytes to that of controls. Time to peak (TPK) shortening of Ca2+ was not different between diabetic and control rats. However, BNP (10(-7) M) increases TPK of Ca2+ significantly. The amplitude of the Ca2+ transient was significantly increased in diabetic myocytes (0.42 +/- 0.02 Ratio units [RU]) compared to controls (0.36 +/- 0.02 RU) and was not additionally altered by BNP. BNP may have a protective role in STZ-induced diabetic rat heart.
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PMID:Effects of brain natriuretic peptide on contraction and intracellular Ca2+ in ventricular myocytes from the streptozotocin-induced diabetic rat. 1715 Dec 99

This paper explains the background and current use of B-type natriuretic peptide (BNP) assays to differentiate congestive heart failure (CHF) from other causes of dyspnea. With a large and growing elderly population, CHF is being diagnosed much more often in emergency rooms in the United States. Doctors need a way to quickly distinguish whether a patient with respiratory distress is suffering from cardiac insufficiency or another etiology. BNP is released from the ventricles in response cardiac overload from CHF or some other form of left ventricular systolic dysfunction. Therefore, the detection and measurement of BNP is a fast and accurate method of determining if CHF is the cause of a patient's breathing difficulties.
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PMID:The use of B-type natriuretic peptide to diagnose congestive heart failure. 1718 Nov 25

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