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

Chronic heart failure (CHF) is a complex syndrome affecting many body systems. Body wasting (ie, cardiac cachexia) is a serious complication of CHF long known but little investigated. Although no specific diagnostic criteria have been established, we have suggested that cardiac cachexia be defined on the basis of the presence of documented nonintentional and nonedematous weight loss > 7.5% of the premorbid normal weight, occurring over a time period of > 6 months. Using this definition, 16% of an unselected CHF outpatient population was found to be cachectic. The cachectic state is predictive of impaired prognosis independently of age, functional disease classification, left ventricular ejection fraction, and peak oxygen consumption. The mortality in the cachectic cohort is 50% at 18 months. Analyzing body composition in detail, it has been found that patients with cardiac cachexia suffer from a general loss of fat tissue (ie, energy reserves), lean tissue (ie, skeletal muscle), and bone tissue (ie, osteoporosis). Cachectic CHF patients are weaker and fatigue earlier, which is due to both reduced skeletal muscle mass and impaired muscle quality. The pathophysiologic alterations leading to cardiac cachexia remain unclear, but initial cross-sectional studies have suggested that humoral neuroendocrine and immunologic abnormalities are linked, independently of established heart failure severity markers, to the presence of body wasting. Comparing the features of cachectic and noncachectic CHF patients with those of healthy control subjects, it is mainly the cachectic CHF patients who show raised plasma levels of epinephrine, norepinephrine, and cortisol; the highest plasma renin activity and aldosterone plasma concentrations; and the lowest plasma sodium level. Several studies have shown that cardiac cachexia is linked to raised plasma levels of tumor necrosis factor-ac. The degree of body wasting is strongly correlated with neurohormonal and immune abnormalities. The available evidence suggests that cardiac cachexia is a multifactorial neuroendocrine and metabolic disorder with a poor prognosis. A complex imbalance of different body systems may cause the development of body wasting.
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PMID:Cardiac cachexia: a syndrome with impaired survival and immune and neuroendocrine activation. 1008

Disseminated cholesterol crystal embolism (CCE) is a devastating complication of atherosclerosis that is often considered beyond therapeutic resources. We designed and implemented a treatment protocol based on an analysis of the main causes of death in disseminated CCE with renal involvement. From 1985 to 1996, we applied this protocol in 67 consecutive atherosclerotic patients admitted to our renal intensive care unit for acute renal failure (serum creatinine level, 6 +/- 2.5 mg/dL) accompanied by signs and symptoms of CCE. The other principal clinical features in these patients were cardiac failure with pulmonary edema (61%), gastrointestinal ischemia (33%), cutaneous ischemia (90%), and retinal cholesterol embolism (22%). Disseminated CCE followed one or several precipitating factors, including angiographic procedure(s) (85%), anticoagulant treatment (76%), and cardiovascular surgery (33%). Our treatment schedule systematically addressed the identified causes of death in these patients. (1) To avoid CCE recurrence, any form of anticoagulant treatment was withdrawn, and aortic catheterization and surgery were proscribed. (2) To treat or prevent cardiac failure, a high-dose vasodilator regimen was instituted, including angiotensin-converting enzyme (ACE) inhibitors. In case of cardiac failure refractory to vasodilators, loop diuretics were added and, if necessary, overhydration was corrected by ultrafiltration/hemodialysis (11 patients). (3) To avoid cachexia, severe metabolic disorders were treated by hemodialysis (41 patients), and special attention was given to providing enteral or parenteral nutritional support. Patients with declining general status and laboratory evidence of inflammation, as well as those with new episodes of CCE, were treated with corticosteroids. Statistical analysis found a significant correlation between the requirement for hemodialysis and previous anticoagulation, degree of renal insufficiency, and severity of cardiac failure. Conversely, there was no correlation between requirement for hemodialysis and ACE inhibitor treatment or presence of atherosclerotic renal artery stenosis/thrombosis. The inhospital mortality rate was 16%. There were no clinical or laboratory elements found on admission that were predictive of inhospital mortality. Among survivors, 32% had to remain on maintenance hemodialysis therapy for irreversible chronic renal failure. Including initial hospitalization, the 1-year survival rate was 87%, which compares favorably with reports in the literature indicating a first-year mortality rate of 64% to 81%. Overall follow-up was 19 +/- 20 months, ranging from 1 to 74 months. The 4-year survival rate was 52%. We conclude that an intensive-care, specific-treatment schedule reduces mortality in multivisceral cholesterol embolism.
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PMID:Supportive treatment improves survival in multivisceral cholesterol crystal embolism. 1067 43

Body wasting, i.e, cardiac cachexia, is a complication of chronic heart failure (CHF). The authors have suggested that cardiac cachexia should be diagnosed when nonedematous weight loss of more than 7.5% of the premorbid normal weight occurs over a time period of more than 6 months. In an unselected CHF outpatient population, 16% of patients were found to be cachectic. The cachectic state is predictive of poor survival independently of age, functional class, ejection fraction, and exercise capacity. Patients with cardiac cachexia suffer from a general loss of fat, lean, and bone tissue. Cachectic CHF patients are weaker and fatigue earlier. The pathophysiologic causes of body wasting in patients with CHF remain unclear, but initial studies have suggested that humoral neuroendocrine and immunologic abnormalities may be of importance. Cachectic CHF patients show increased plasma levels of catecholamines, cortisol, and aldosterone. Several studies have shown that cardiac cachexia is linked to increased plasma levels of tumor necrosis factor alpha. The degree of body wasting is strongly correlated with neurohormonal and immune abnormalities. Some investigators have suggested that endotoxin may be important in triggering immune activation in CHF patients. Available studies suggest that cardiac cachexia is a multifactorial neuroendocrine and immunologic disorder that carries a poor prognosis. A complex catabolic-anabolic imbalance in different body systems may cause body wasting in patients with CHF.
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PMID:Insights into the pathogenesis of chronic heart failure: immune activation and cachexia. 1035 92

The current interest in understanding the role of stress-induced cytokines in heart failure relates to the observation that many of the untoward pathophysiologic responses of the failing circulation might be explained by these compounds. These small molecules appear to cause left ventricular dysfunction, precipitate pulmonary edema, cause cardiomyopathy, reduce peripheral organ perfusion, induce ventricular remodeling, activate the fetal gene program in animal models, and cause anorexia and cachexia. Thus, the elaboration of cytokines, similar to the upregulation of neurohormones, may represent a biochemical mechanism that is responsible for producing symptoms and remodeling in heart failure patients. To better understand how cytokines play a role in heart failure, it is important to delineate the concept of cytokine bioactivity in this setting.
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PMID:Cytokines and heart failure. 1042 71

Cardiac cachexia has recently been identified as an independent risk factor for mortality in chronic congestive heart failure. The aims of our study were to further identify the clinical or biochemical predictors or correlates of the cachexia, and to quantitate the magnitude of wasting. We undertook an anthropometric comparison of 30 patients with congestive heart failure, aged 56 (13) years, with ten age- and sex-matched healthy volunteers and 16 patients with essential hypertension. In comparison to the healthy volunteers, the heart failure patients exhibited a trend towards a lower body mass index, 21 (2.7) versus 23 (3.8) kg/m2, the 95% confidence interval for the difference being -0.54 to 5.4. However, the mid-upper arm circumference, of 24 (3.8) cm in the heart failure patients, was significantly (P<0.02) lower than the 27 (2.0) cm in the healthy volunteer group, with a 95% confidence interval for the difference being 1.18 to 4.82 cm. The triceps, mid-thigh, scapula and abdominal skinfold thicknesses were separately and significantly (P<0.05) diminished in the heart failure patients compared to the healthy controls. The sum of the four skin fold thicknesses, with a value of 68 (13) mm in the healthy volunteers, was highly significantly greater (P<0.001) than the value of 35.6 (9) mm in the heart failure patients. The 95% confidence interval for this difference was 22.7 to 41.3 mm. The patients with essential hypertension differed significantly from the heart failure patients in all of these parameters (P<0.01), but were not statistically different from the healthy controls in the anthropometric parameters. Among the heart failure patients, those with tricuspid regurgitation (n = 12) had a worse clinical, biochemical and cachexia profile compared to patients without the tricuspid regurgitation (n = 18). The values (tricuspid regurgitation versus no regurgitation) were New York Heart Association Class, 3.5 (0.65) versus 2.7 (0.75), P<0.01; ejection fraction of 34 (9) versus 43 (13)%, not significant; greater hepatomegaly of 159 (31) versus 135 (29) mm, P<0.05; more severe hypoalbuminemia, 24.5 (2.7) versus 28.5 (6.8) g/l, P<0.05; and worse hyponatremia, 128 (4) versus 133 (5) mmol/l, P<0.05. The tricuspid regurgitation group had a significantly more severe reduction in abdominal and scapula skin fold thickness (P<0.01) than that found in patients without tricuspid regurgitation. The sum of the four skin fold thicknesses was significantly lower (P<0.05) in tricuspid regurgitation, 30.9 (8) mm, than in heart failure without associated regurgitation, 38.0 (9.6). The 95% confidence interval for the difference was 0.8 to 13.4 mm. It is concluded that significant diminution of muscle bulk and subcutaneous fat occurs in chronic heart failure. Tricuspid regurgitation may be an accentuating and accelerating risk factor for cardiac cachexia, on account of a greater hypoalbuminemia and hyponatremia, which, presumably, results from the associated protein-losing enteropathy.
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PMID:Anthropometric evaluation of cachexia in chronic congestive heart failure: the role of tricuspid regurgitation. 1057 94

We report about a 17 year old male patient with a cardiomyopathy secondary to type IV glycogenosis (Andersens disease) and class II immunoglobulin deficiency who underwent cardiac transplantation. The patient first developed symptoms of heart failure at the age of twelve. The histologic diagnosis was cardiomyopathy secondary to glycogenosis. In addition, the patient suffered recurrent pulmonary infections and developed bronchiectases in the left lower lobe. This region was atelectatic since he was eleven. The patient did have two younger brothers who died of congestive heart failure at the age of nine and ten. Neither his parents nor anybody else of his relatives had a history of heart failure or glycogenosis. Since the patient suffered recurrent cardiac decompensations with the need for catecholamines he was accepted for cardiac transplantation although several relative contraindications to transplantation such as cachexia, myopathy, immunglobulin deficiency and bronchiectases had been present. The patient was transplanted successfully. The postoperative weaning from the respirator was markedly prolonged and complicated by pulmonary infection. Furthermore, mobilization was retarded. One year after transplantation, he is in a good condition without pulmonary or systemic infection. Right ventricular endomyocardial biopsies did not show recurrence of glycogenosis in the donor organ.
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PMID:[Glycogenosis type IV as a seldom cause of cardiomyopathy - report about a successful heart transplantation]. 1055 89

To study the changes of tumor necrosis factor-alpha (TNF-alpha) produced by peripheral blood mononuclear cells (PBMC) of patients with congestive heart failure (CHF), we determined the TNF-alpha concentrations of plasma and culture supernatant of PBMCs in 113 patients with various heart diseases. The results showed that plasma levels of TNF-alpha were significantly higher in CHF patients (n=50, 13.36+/-6.09 pg/ml) and in cachetic CHF patients (n=26, 19.20+/-10.42 pg/ml) than in the controls (n=37, 6.73+/-3.91 ng/ml). The supernatant levels of TNF-alpha in cultured PBMC (PBMC-TNF-alpha) were also significantly elevated in CHF patients (5.77+/-2.11 ng/ml), and even higher in cachetic CHF patients (7.01+/-5.11 ng/ml), as compared with the controls (2.27+/-2.24 ng/ml). There was a significant correlation between levels of PBMC-TNF-alpha and severity of heart failure (r=0.48, P<0.01). But no correlation between PBMC-TNF-alpha and plasma TNF-alpha was observed. These results demonstrate that the expression of TNF-alpha in PBMC is increased in patients with CHF, especially in patients with CHF accompanied by cachexia, suggesting that PBMC-TNF-alpha may be a potential biochemical indicator to evaluate the patients with CHF.
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PMID:Elevated tumor necrosis factor alpha of blood mononuclear cells in patients with congestive heart failure. 1063 33

Recent studies have focused their attention on the role of the proinflammatory cytokine tumor necrosis factor (TNF) in the development of heart failure. First recognized as an endotoxin-induced serum factor that caused necrosis of tumors and cachexia, it is now recognized that TNF participates in the pathophysiology of a group of inflammatory diseases including rheumatoid arthritis and Crohn's disease. The normal heart does not express TNF; however, the failing heart produces robust quantities. Furthermore, there is a direct relationship between the level of TNF expression and the severity of disease. In addition, both in vivo and in vitro studies demonstrate that TNF effects cellular and biochemical changes that mirror those seen in patients with congestive heart failure. Furthermore, in animal models, the development of the heart failure phenotype can be abrogated at least in part by anticytokine therapy. Based on information from experimental studies, investigators are now evaluating the clinical efficacy of novel anticytokine and anti-TNF strategies in patients with heart failure; one such strategy is the use of a recombinantly produced chimeric TNF alpha soluble receptor. Thus, in view of the emerging importance of proinflammatory cytokines in the pathogenesis of heart disease, we review the biology of TNF, its role in inflammatory diseases, the effects of TNF on the physiology of the heart and the development of clinical strategies that target the cytokine pathways.
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PMID:The role of tumor necrosis factor in the pathophysiology of heart failure. 1071 53

It has been reported that growth hormone may benefit selected patients with congestive heart failure. A 63-year-old man with refractory congestive heart failure waiting for heart transplantation, depending on intravenous drugs (dobutamine) and presenting with progressive worsening of the clinical status and cachexia, despite standard treatment, received growth hormone replacement (8 units per day) for optimization of congestive heart failure management. Increase in both serum growth hormone levels (from 0.3 to 0.8 microg/l) and serum IGF-1 levels (from 130 to 300ng/ml) was noted, in association with clinical status improvement, better optimization of heart failure treatment and discontinuation of dobutamine infusion. Left ventricular ejection fraction (by MUGA) increased from 13 % to 18 % and to 28 % later, in association with reduction of pulmonary pressures and increase in exercise capacity (rise in peak VO2 to 13.4 and to 16.2ml/kg/min later). The patient was "de-listed" for heart transplantation. Growth hormone may benefit selected patients with refractory heart failure.
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PMID:Growth hormone for optimization of refractory heart failure treatment. 1075 93

Experimental data suggests that growth hormone and IGF-1 have beneficial effects on myocardial function in animal models of heart failure. Preliminary evidence suggests an abnormality in the growth hormone-IGF-1 axis in heart failure with relative growth hormone resistance. Beneficial effects of growth hormone and IGF-1 include vasodilatation, stimulation of cardiac hypertrophy, increase in calcium sensitivity of cardiac myofilaments and prevention of apoptosis. Recently, cardiac cachexia has been shown to be a powerful negative predictive factor in heart failure. Cachectic patients have higher angiotensin II levels. In the rat there is an important interaction between the renin-angiotensin system and IGF-1. Thus, angiotensin II infusion causes weight loss in part through a catabolic effect. This effect results from increased protein degradation. Angiotensin II reduces circulating and skeletal muscle IGF-1 but increases IGF-1 and the IGF-IR expression in cardiac muscle. Preliminary data suggest a potential beneficial effect of growth hormone in heart failure. Further trials are necessary to test the potential beneficial effect of growth hormone and/or IGF-1 in heart failure.
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PMID:The growth hormone and insulin-like growth factor 1 axis in heart failure. 1079 May 88


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