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)

The wider availability of recombinant human growth hormone and insulin-like growth factor-I has resulted in an investigation into the potential benefits of the pharmacological administration of these anabolic peptides in a variety of clinical conditions, characterized by an increase in catabolic rate. The initial studies were small, often uncontrolled open investigations, but investigators have more recently concentrated on larger, controlled multi-centre trials. Studies to date have included patients with cardiac failure, sepsis, burns, cancer cachexia, end-stage renal failure, trauma and AIDS, and those prior to or following major surgery. The authors have in general cautiously interpreted positive effects of treatment with growth hormone and insulin-like growth factor-I, either alone or in combination, on net protein balance, body composition, well-being and performance. Two large, randomized, placebo-controlled European multi-centre studies have recently detailed the effects of growth hormone treatment in critically ill intensive care patients. Major increases in mortality and morbidity were associated with growth hormone treatment. The mechanism(s) accounting for the increased mortality remain poorly understood. These negative findings have led to a decrease in the clinical use of growth hormone and in research activity in the area of anabolic treatment in human illness.
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PMID:Treatment with growth hormone and insulin-like growth factor-I in critical illness. 1180 May 16

Cachexia has been known to physicians since ancient Greek times as a 'signum mali ominis' in various diseases indicating end stage disease and poor quality of life. Cardiac cachexia is recently receiving growing attention as modern treatment options prevent early death from cardiac events and more patients live with chronic compensated heart failure. Nevertheless, observation and clinical documentation of this condition go back as long as medical science itself. Pioneering studies on the reasons and mechanisms of cachexia were performed several decades ago. These studies provide fundamental insights and guidance towards a better understanding of cachexia. This review presents an overview of early thoughts and milestone studies on metabolic abnormalities and cachexia in chronic heart failure.
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PMID:Cardiac cachexia in early literature: a review of research prior to Medline. 1216 5

Cachexia is a common consequence of chronic illness. The nutritional abnormalities contributing to the clinical picture are often a composite of reduced appetite, dietary factors including protein, energy and micronutrient intake, malabsorption and increased consumption or loss of nutrients. In this article, using chronic heart failure as an example, we have reviewed the potential influences of chronic disease on each of these and how they might lead to the relentless progression of wasting and the poor prognosis associated with it.
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PMID:Nutritional abnormalities contributing to cachexia in chronic illness. 1216 7

Chronic heart failure is no longer a mere cardiac entity, but involves several, initially adaptive and later detrimental, neurohumoral compensatory mechanisms. Peripheral manifestations of the disease, such as endothelial dysfunction, skeletal muscle changes, and disturbances in ventilatory control, are major determinants of symptoms. The independent prognostic value and the relevance of cachexia on morbidity of patients with chronic heart failure have only recently been recognised. Altered body composition in heart failure patients is reflected in the early loss of muscle tissue but affects all tissue compartments in case of cardiac cachexia. Recently, a new portfolio of biologically active molecules, termed cytokines, have been shown to play an important role in the development and progression of both cardiac and peripheral abnormalities. Similar to other chronic illnesses, covered in the remainder of this issue, a low-grade chronic inflammatory process may be of particular relevance in the development of tissue wasting in these patients. Whereas the presence of immune activation in chronic heart failure is now widely accepted, as well as the prognostic relevance of chronic inflammation, the site and the source of cytokine production remain the object of intense research. Although the inciting event is located in the heart, cross-talk between the myocardium on the one hand, and the immune system, peripheral tissues and organs on the other hand, will lead to the overproduction of proinflammatory cytokines and, inevitably, to their detrimental effects. The specific problems related to heart failure progression and inflammatory activation are described in this review.
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PMID:Chronic heart failure: an example of a systemic chronic inflammatory disease resulting in cachexia. 1216 8

Cachexia, i.e. body wasting, has long been recognised as a serious complication of chronic illness. The occurrence of wasting in chronic heart failure (CHF) has been known for many centuries, but it has not been investigated extensively until recently. Cardiac cachexia is a common complication of CHF which is associated with poor prognosis, independently of functional disease severity, age, measures of exercise capacity, and left ventricular ejection fraction. Patients with cardiac cachexia suffer from generalised loss of lean tissue, fat tissue, as well as bone tissue. Cachectic CHF patients are weaker and fatigue earlier. This is due to both reduced skeletal muscle mass and impaired skeletal muscle quality. Concerning the pathophysiology of cardiac cachexia, there is increasing evidence that neurohormonal and immune abnormalities may play a crucial role. Cachectic CHF patients have raised plasma levels of norepinephrine, epinephrine, and cortisol, and they show high plasma renin activity and increased plasma aldosterone levels. A number of studies have also shown that cardiac cachexia is linked to raised plasma levels of inflammatory cytokines, such as tumor necrosis factor alpha. 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, termed catabolic/anabolic imbalance, is likely to be responsible for the development of the wasting process. It is hoped that a better understanding of the pathophysiological mechanisms involved in cardiac cachexia will lead to novel therapeutic strategies in the (near) future.
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PMID:The syndrome of cardiac cachexia. 1216 9

Although the clinical picture of cardiac cachexia is well-known in patients with advanced chronic heart failure (CHF) the factors that determine who is at risk for this progressive catabolic syndrome and who is not remain unclear. Different endocrine systems have been accused of being involved in this process: an imbalance between catabolic and anabolic steroids with an elevated cortisol/dihydroepiandrosterone ratio, an increased resting metabolic rate due to high levels of circulating catecholamines, various cytokines are activated in CHF (i.e. TNF-alpha, IL-6, IL-1beta and others), and elevated levels of growth hormone (GH) with inappropriately normal or low serum levels of insulin-like growth factor-I (IGF-I) have been described in cardiac cachexia. These catabolic factors contribute to peripheral muscle atrophy, augment the expression of the inducible nitric oxide synthase (iNOS), which in turn inhibits the aerobic cellular metabolism. The present review examines whether the catabolic factors can be influenced by a classical anabolic intervention: regular physical exercise training. Long-term training programs increase skeletal muscle cytochrome c oxidase activity and are associated with reduced local expression of pro-inflammatory cytokines as well as iNOS, and augment local IGF-I production. In concert, these beneficial effects of exercise training may help to retard the catabolic process in CHF finally leading to cardiac cachexia and death.
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PMID:Chronic heart failure and skeletal muscle catabolism: effects of exercise training. 1216 19

The cachexia syndrome is characterised by progressive weight loss and depletion of lean body mass and has long been recognised as a poor prognostic sign. Whilst the clinical features of the wasting process are readily apparent, its pathogenesis is complex and poorly understood. There is increasing evidence that the immune system, in particular inflammatory cytokines, may play an important role in the development of cachexia. The cytokine considered to be the most relevant to this process is tumor necrosis factor alpha (TNF), although other mediators such as interleukin (IL) 1, IL-6 and interferon gamma have also been implicated. Apoptosis represents a potential pathway by which wasting can occur in chronic diseases. Cytokines and their corresponding receptors are known to be important regulators of cell death. Apoptosis has been demonstrated in the skeletal muscle of patients with chronic heart failure (CHF) and is thought to be partly responsible for the significant impairment of functional work capacity associated with this condition. An understanding of the mechanisms that regulate muscle protein breakdown is essential for the development of strategies for treating or even preventing muscle cachexia in patients. It is the aim of this article to review the role of inflammatory cytokines, particularly TNF, in the pathogenesis of wasting and also the potential for anti-cytokine therapy. Although this review will concentrate predominantly on the syndrome of CHF, other chronic illnesses such as liver disease, cancer, and sepsis will also be discussed.
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PMID:Cytokines, apoptosis and cachexia: the potential for TNF antagonism. 1216 21

Bacterial endotoxin activity is elevated in patients with decompensated chronic heart failure (HF) and acts as a potent stimulus for immune activation. We sought to determine whether endotoxin, at an activity level seen in vivo (around 0.6 EU/ml), is sufficient to stimulate the secretion of tumor necrosis factor-alpha (TNF-alpha) and TNF-alpha soluble receptor (sTNFR2) in ex vivo whole blood from patients with HF. We studied 15 patients with HF (aged 65 +/- 1.9 years, New York Heart Association class 2.1 +/- 0.3, left ventricular ejection fraction 31 +/- 5%; mean +/- SEM), of whom 5 had cardiac cachexia, and 7 healthy control subjects (59 +/- 5 years, p = NS). Reference endotoxin was added to venous blood at concentrations of 0.6, 1.0, and 3.0 EU/ml, and was incubated for 6 hours. Endotoxin induced a dose-dependent increase in TNF-alpha release (p <0.05 in all groups). Patients with noncachectic HF produced significantly more TNF-alpha compared with controls after stimulation with 0.6, 1.0, and 3.0 EU/ml of endotoxin (113 +/- 46 vs 22 +/- 4 [p = 0.009], 149 +/- 48 vs 34 +/- 4 [p = 0.002], and 328 +/- 88 vs 89 +/- 16 pg/ml [p = 0.002], respectively; mean +/- SEM). Patients with cardiac cachexia produced significantly less TNF-alpha compared with patients without cardiac cachexia for all given concentrations (all p <0.05, analysis of variance p = 0.02). Production of sTNFR2 was greater at all concentrations of endotoxin versus controls (all p <0.05, analysis of variance p = 0.002). Plasma endotoxin levels were higher in patients with cardiac cachexia (4.3 times higher than in control subjects, p <0.005). Thus, low endotoxin activity, at levels seen in vivo in patients with HF, induces significant TNF-alpha and sTNFR2 production ex vivo. These results suggest that elevated plasma endotoxin activity observed in patients with HF is of pathophysiologic relevance.
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PMID:Pathophysiologic quantities of endotoxin-induced tumor necrosis factor-alpha release in whole blood from patients with chronic heart failure. 1245 Jun 3

Heart failure is a complex syndrome characterized by the activation of hemodynamic, immunologic and neurohormonal systems, which have beneficial effects in the short run, but will ultimately lead to secondary end-organ damage with worsening of LV remodeling and subsequent cardiac decompensation. A very important role seems to be played by modifications of the pituitary hormone systems. Due to the neurohormonal activation there is an increase in the activity in the renin angiotensin system, in the adrenergic nervous system, and in the cytokine system. In heart failure there is a decrease in many anabolic hormones, such as a decrease of GH and IGF-I, of DHEA/DHEAS with normal or increased F, and a decrease of LH and sex steroids, resulting in an important catabolic drive, capable of contributing to the development of cardiac failure and to sarcopenia and/or cachexia, frequently observed in the advanced stages of the disease. However, these hormone alterations have been described in relatively young patients with chronic heart failure, since the mean age of all the subjects studied was of about 60 yr and none of the studies have specifically addressed this issue in the very old patients, who represent the largest portion of population affected by this pathological condition. The role of hormone replacement therapy needs to be verified in a population of elderly patients with heart failure.
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PMID:Pituitary function in chronic heart failure in the elderly. 1250 9

Patients with chronic heart failure (CHF) have metabolic abnormalities, leading to a catabolic syndrome, with progressive loss of skeletal muscle in advanced stages of the disease. Leptin, the product of an obesity gene, has been associated with energy expenditure and weight regulation. The aim of this study was to assess serum levels of leptin and its soluble receptor in relation to exercise intolerance and neurohumoral activation in patients with CHF. We investigated 53 patients with CHF left ventricular ejection fraction (LVEF) 25+/-1%, age 56.6+/-1.3 years, Maximal oxygen uptake (VO(2) max) 16.3+/-0.6 ml/min.kg) sub-classified according to peak oxygen consumption of > or <or=14 ml/min.kg and 11 age-matched controls (LVEF 70+/-1, age 60.5+/-4.0 years, (VO(2)max) 26.9+/-1.6 ml/min.kg). Body mass index-adjusted serum levels of leptin and soluble leptin receptor were increased in patients with CHF compared to the controls (0.28+/-0.03 vs. 0.22+/-0.04 ng.m(2)/ml.kg and 32.6+/-1.9 ng/ml vs. 22.9+/-2.3, P<0.05). This increase was even more pronounced in patients with CHF and severe exercise intolerance (0.43+/-0.08 vs. 0.21+/-0.02 and 0.22+/-0.04 ng.m(2)/ml.kg; P<0.01 vs. VO(2)max>14 ml/min.kg and controls). Elevated levels of leptin correlated with an increased serum concentration of TNFalpha (r=0.749, P<0.01) in this subgroup of patients with CHF. We conclude that patients with advanced CHF show elevated serum levels of leptin and its soluble receptor. This finding indicates that leptin may participate in the catabolic state leading to the development of cardiac cachexia in the course of CHF.
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PMID:Elevated serum levels of leptin and soluble leptin receptor in patients with advanced chronic heart failure. 1255 13


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