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)

An analysis of beta thalassemia major patients seen at Hospital Juan P. Garrahan was carried out in order to determine the characteristics and outcome of the population. From August 1987 to July 2000, 45 patients were admitted (27 males-18 females). The most common beta globin gene defects were C-39 (30.7%); IVS-I nt 110 (20%); IVS-I nt 6 (13.3%); IVS-I nt 1(4%). alpha globin genes were normal in 42 patients, 1 patient had triplicate and cuadriplicate alpha globin genes and 2 patients were not analyzed. Six patients of 5 families were heterozygous for -158G gamma mutation. Allogeneic stem cell transplantation was performed in 7 patients, with an identical sibling. Transfusion-related infections and alloantibodies were detected in 6.7% patients. Growth assessment showed no significant difference in the stature of girls compared to the reference population, but 5 boys had short stature. There is a tendency to short trunk. Growth velocity was normal at prepubertal age. No X-ray lesions related to desferrioxamine were observed. Delayed puberty and hypogonadotropic hypogonadism were found in 35.7% and abnormalities in GH/IGF-I axis in 12.5% of the patients. Impaired glucose tolerance was found in 2 patients. No patient developed diabetes mellitus, thyroid or adrenal insufficiency. One patient had cardiac complications. Forty-two patients are alive and 3 died (cardiac failure 1, central nervous system bleeding 1, sepsis 1). We conclude that beta thalassemia major, originated mainly from Italian immigrants, has a cumbersome treatment and is severely hindered by the lack of adequate economic resources in our patients.
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PMID:[Beta thalassemia major in Argentina]. 1203 33

Previous investigations of adults with the Prader-Willi syndrome (PWS) are few and have demonstrated severe obesity with increased morbidity and mortality in cardiovascular disease. It is, thus, important to identify risk factors and, if possible, start prevention. We studied the clinical, genetic, endocrinological, and metabolic findings in 19 adult PWS patients (10 men; mean age, 25 yr). The PWS karyotype was demonstrated in 13 patients. The mean body mass index was 35.6 kg/m(2), and total body fat was increased. Two thirds were biochemically hypogonadal. Fifty percent had severe GH deficiency (GHD). Four were hypertensive. One patient had heart failure and diabetes. Impaired glucose tolerance was seen in 4 patients, elevated homeostasis model assessment index in 9 patients, and modest dyslipidemia in 7. IGF-binding protein-1 correlated negatively with insulin levels. Four patients had osteoporosis, and 11 had osteopenia. There was no significant difference between the group with the PWS karyotype and the group without the karyotype in age, body mass index, waist/hip ratio, percent body fat, insulin values, homeostasis model assessment index, or lipid profile, except for lipoprotein(a), which was significantly higher in the group with the negative karyotype. IGF-I and lumbar spine bone mineral density were significantly lower in patients with genetic alteration, indicating a more severe GHD. The risk factors found in this study predicting cardiovascular disease are interpreted as secondary to GHD. These findings point to the importance of evaluating treatment of GHD in adults with PWS.
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PMID:Metabolic profile and body composition in adults with Prader-Willi syndrome and severe obesity. 1216 80

IGF-I and IGF-II are single-chain polypeptide growth factors that regulate pleiotropic cellular responses. We have characterized the effect of recombinant IGF proteins, as well as third-generation adenoviral vectors encoding either IGF-I or IGF-II genes, on cardiomyocyte apoptosis and on angiogenesis. We found that endothelial cells cultured in the presence of the extracellular protein laminin exhibit a robust response to IGF-I and -II proteins via enhanced cell migration and angiogenic outgrowth. Furthermore, IGF vectors greatly enhanced neovascularization in an in vivo Matrigel model. Transduction of cardiomyocytes with the IGF adenoviral vectors resulted in a dose- and time-dependent increase in the expression of IGF-I or IGF-II protein. This correlated with abrogation of apoptosis induced by ischemia-reoxygenation, ceramide, or heat shock with optimal inhibition of approximately 80%. We conclude that gene transfer of IGF-I and IGF-II is a plausible strategy for the local delivery of IGFs to treat ischemic heart disease and heart failure by stimulating angiogenesis and protecting cardiomyocytes from cell death.
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PMID:Gene therapy vector-mediated expression of insulin-like growth factors protects cardiomyocytes from apoptosis and enhances neovascularization. 1250 77

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

Growth hormone is a pituitary polypeptide hormone regulating growth in paediatric age as well as inducing anabolic actions directly or IGF-I mediated in adult age. Particularly, in many animals GH and IGF-I receptors were observed in cardiac myocyte membrane. GH modifies left ventricle structure and function. As concerns spontaneous GH secretion, some data suggest that pituitary gland can have a compensatory role on endocrine response to heart failure. Heart failure stage was directly correlated to nocturnal GH levels. All GH spontaneous night secretion parameters as well as IGF-I levels showed a range between normal people and very high spontaneous secretion. Therefore in these patients there are either a GH peripheric resistance or a reduction of the activity of GH/IGF-I axis. Anyhow in our patients, GH 24 hour infusion was inducing a 5 fold increase in GH concentration and a 50% increase in basal IGF-I levels. Anker et al. suggested to evaluate nutritional state in heart failure patients, observing no differences in non-cachectic patients vs controls, while cachectic patients presented a typical GH resistance syndrome. Interestingly, cardiovascular effects of GH administration seem to be only marginally correlated to hemodynamic basal state. On the other hand basal hormonal setting of the patient seems to correlate to the GH-induced cardiovascular response. In fact, low basal IGF-I but high basal GH patients presented the worst endocrine and cardiovascular response to GH infusion. In literature there are controversial data about GH treatment in patients with chronic heart failure. The heterogeneity of the population could be the reason for this discrepancy. Besides very different IGF-I responses to GH have been reported. Therefore, as there is good clinical evidence that GH acute infusion can improve heart failure, it seems to be necessary firstly to evaluate the basal endocrine status of the patients. Particularly attention should be given to those patients that present a peripheric GH resistance. On the other hand, those patients with a reduced pituitary GH reserve are supposed to have very beneficial effects from GH treatment.
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PMID:[Growth hormone secretion in heart failure]. 1262 59

Experimental and clinical studies have recently demonstrated that the growth hormone-insulin-like growth factor-I (GH-IGF-I) system is involved in the regulation of cardiac structure and function. Patients with acromegaly have an increased propensity of developing cardiovascular complications, such as ventricular hypertrophy with interstitial fibrosis. Conversely, patients with GH deficiency can exhibit ventricular dysfunction, increased vascular thickness, and an increased number of atheromatous plaques. In both groups of patients these abnormalities may be partially reverted by normalizing GH-IGF-I levels. In experimental or human chronic heart failure (CHF), GH administration increases ventricular mass and cardiac performance and reduces pulmonary vascular resistance. The mechanism by which this occurs is still unclear, but seems to involve calcium channels and non-endothelium-mediated vasodilatation. Randomized trials studying CHF patients contradict these results, highlighting that, in patients with heart failure, the response to GH therapy appears to be variable, and is probably influenced either by acquired GH resistance or by baseline levels of hormones. Due to the small number of patients examined to date, larger, randomized, controlled studies are needed.
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PMID:Does growth hormone play a role in chronic heart failure? 1263 81

Mutations of the TSH receptor leading to constitutive activation of the cAMP cascade are responsible for the development of hot nodules, if arising in a somatic cell, and nonautoimmune hyperthyroidism, when occurring in a germinal cell. An animal model of constitutive activation of the thyroid cAMP cascade has been obtained by generating transgenic mice expressing the adenosine receptor (Tg-A2aR) under the control of the thyroglobulin promoter. These mice develop huge goiters and die prematurely due to hyperthyroidism induced cardiac failure. To identify new genes involved in the tumorigenic pathway of the thyroid, we designed a protocol using microarray technology to study the differential expression, between normal and transgenic thyroid, of +/-13,000 genes. A total of 360 genes or expressed sequence tags showed a strong modulation with background corrected values of fluorescence superior to 2-fold change. The modulated genes were classified according to their proposed gene ontology functions. Approximately half of them were up-regulated. The function of the majority of these genes in thyroid physiology is still to be determined. Some of them, like IGF-I or IGF binding protein 3 or 5, may play an important role in the development of thyroid nodules through paracrine mechanisms. This study demonstrates the feasibility of sequentially following the cascade of events leading to the formation of benign tumors such as hot thyroid nodule or hyperfunctional goiter.
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PMID:Gene expression profile in thyroid of transgenic mice overexpressing the adenosine receptor 2a. 1456 36

The use of GH to treat heart failure has received considerable attention in recent years. Although the mechanisms of its beneficial effects are unknown, it has been implicated in the regulation of apoptosis in several cell types, and cardiomyocyte apoptosis is known to occur in heart failure. We therefore decided to investigate whether GH protects cardiomyocytes from apoptosis. Preliminary experiments confirmed the expression of the GH receptor (GHR) gene in primary cultures of neonatal rat cardiomyocytes (PC), the specific binding of GH by HL-1 cardiomyocytes, and the GH-induced activation of GHR and its classical downstream effectors in the latter. That GH prevented the apoptosis of PC cells deprived of serum for 48 h was shown by DNA electrophoresis and by Hoechst staining assays in which GH reduced the percentage of cells undergoing apoptosis. Similarly, the TUNEL-evaluated pro-apoptotic effect of cytosine arabinoside (AraC) on HL-1 cells was almost totally prevented by pre-treatment with GH. Fluorescence-activated cell sorter (FACS) analysis showed apoptosis in 9.7% of HL-1 cells growing in normal medium, 21.1% of those treated with AraC and 13.9% of those treated with AraC+GH, and that GH increased the percentage of AraC-treated cells in the S/G(2)/M phase from 36.9% to 52.8%. GH did not modify IGF-I mRNA levels or IGF-I secretion in HL-1 cells treated with AraC, and the protection afforded by GH against AraC-induced apoptosis in HL-1 cells was not affected by the presence of anti-IGF-I antibodies, but was largely abolished by the calcineurin-inhibiting combination cyclosporin+FK506. GH also reduced AraC-induced phosphorylation of mitogen-activated protein kinase p38 (MAPK p38) in HL-1 cells. In summary, GH protects PC and HL-1 cells from apoptosis. This effect is not mediated by IGF-I and may involve MAPK p38 as well as calcineurin.
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PMID:GH prevents apoptosis in cardiomyocytes cultured in vitro through a calcineurin-dependent mechanism. 1476 85

Short-term GH or IGF-I excess provides a model of physiological cardiac growth associated with functional advantage. The physiological nature of cardiac growth is accounted for by the following: (i) the increment in cardiomyocyte size occurs prevalently at expense of the short axis. This is the basis for the concentric pattern of left ventricular (LV) hypertrophy, with consequent fall in LV wall stress and functional improvement; (ii) cardiomyocyte growth is associated with improved contractility and relaxation, and a favourable energetic setting; (iii) the capillary density of the myocardial tissue is not affected; (iv) there is a balanced growth of cardiomyocytes and nonmyocyte elements, which accounts for the lack of interstitial fibrosis; (v) myocardial energetics and mechanics are not perturbed; and (vi) the growth response is not associated with the gene re-programming that characterizes pathologic cardiac hypertrophy and heart failure. Overall, the mechanisms activated by GH or IGF-I appear to be entirely different from those of chronic heart failure. Not to be neglected is also the fact that GH, through its nitric oxide (NO)-releasing action, contributes to the maintenance of normal vascular reactivity and peripheral vascular resistance. This particular kind of interaction of GH with the cardiovascular system accounts for: (i) the lack of cardiac impairment in short-term acromegaly; (ii) the beneficial effects of GH and IGF-I in various models of heart failure; (iii) the protective effect of GH and IGF-I against post-infarction ventricular remodelling; (iv) the reversal of endothelial dysfunction in patients with heart failure treated with GH; and (v) the cardiac abnormalities associated with GH deficiency and their correction after GH therapy. If it is clear that GH and IGF-I exert favourable effects on the heart in the short term, it is equally undeniable that GH excess with time causes pathologic cardiac hypertrophy and, if it is not corrected, eventually leads to cardiac failure. Why then, at one point in time in the natural history of acromegaly, does physiological cardiac growth become maladaptive and translate into heart failure? Before this transition takes places, the acromegalic heart shares very few features with other models of chronic heart failure. None of the mechanisms involved in the progression of heart failure is clearly operative in acromegaly, save for the presence of insulin-resistance and mild alterations of lipoproteins and clot factors. Is this enough to account for the development of heart failure? Probably not. On the other hand, it must be stressed that GH and IGF-I activate several mechanisms that play a protective role against the development of heart failure. These include ventricular unloading, deactivation of neurohormonal components, antiapoptotic effect and enhanced vascular reactivity. Ultimately, all data available concur to hypothesize that acromegalic cardiomyopathy represents a progressive model of cardiac hypertrophy in which the cardiotoxic and pro-remodelling effect is intrinsic to the excessive and unrestrained myocardial growth.
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PMID:Growth hormone, acromegaly, and heart failure: an intricate triangulation. 1497 6

Cardiovascular morbidity and mortality are increased in acromegaly. In fact, GH and IGF-I excess induces a specific cardiomyopathy. The early stage of acromegaly is characterized by the hyperkinetic syndrome (high heart rate and increased systolic output). Frequently, concentric biventricular hypertrophy and diastolic dysfunction occur in acromegaly, leading to an impaired systolic function ending in heart failure if the disease is untreated or unsuccessfully untreated. Besides, abnormalities of cardiac rhythm and of valves have been also described in acromegaly. The coexistence of other complications, such as arterial hypertension and diabetes, aggravates the acromegalic cardiomyopathy. The suppression of GH/IGF-I following an efficacious therapy could decrease left ventricular mass and improve cardiac function. In conclusion, a careful evaluation of cardiac function, morphology and activity seems to be mandatory in acromegaly.
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PMID:Cardiovascular complications in acromegaly. 1528 42

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