UMLS:C0018799 - FACTA Search

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Query: UMLS:C0018799 (heart disease)
34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heart muscle disease in acromegaly manifests usually as cardiac hypertrophy. Based on a retrospective analysis, it was suggested that cardiac hypertrophy is slowly reversible after normalization of plasma growth hormone levels. The reversibility of acromegalic heart muscle disease during and after treatment of acromegaly was studied prospectively. A cohort of 78 patients was examined echocardiographically in 1981, and 38 survivors of this group were reexamined 10 years later. Patients were classified according to original hormonal activity in 1981, and change in hormonal activity during follow-up into the following 4 groups: group I--hormonally inactive for entire follow-up (n = 10); group II--hormonally active for entire follow-up (n = 11); group III--initially hormonally inactive with later resurgence (n = 6); and group IV--initially hormonally active with later normalization of growth hormone levels (n = 11). No significant echocardiographic changes occurred during follow-up in group I. Left ventricular posterior wall and septal diastolic thickness, and left ventricular mass increased significantly (all p < 0.05) in group II. Left ventricular posterior wall thickness, mass and diastolic volume increased significantly (p < 0.05, < 0.01 and < 0.001, respectively) in group III. On the contrary, there were significant decreases in left ventricular mass, and both diastolic and systolic left ventricular volumes (p < 0.01, < 0.05 and < 0.05, respectively) in group IV. It is concluded that both hypertrophy and dilatation of the left ventricle in acromegaly are slowly reversible after successful treatment. On the contrary, continuing or relapsed hyperproduction of growth hormone causes further deterioration of acromegalic heart disease.
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PMID:Long-term echocardiographic follow-up of acromegalic heart disease. 832 85

Seven prepubertal short children with congenital heart disease were treated with recombinant human growth hormone (GH). Although complete surgical correction was performed for their heart disease at least 2 years before the start of GH therapy, improvement in growth was less than expected in these children. They received 0.5 IU kg-1 week-1 of GH daily for 2 years or more. The growth rate increased from a mean of 4.3 cm year-1 before treatment to a mean of 7.8 cm year-1 in the first year and to a mean of 6.3 cm year-1 in the second year of treatment. Their mean standardized height improved from -3.41 +/- 0.78 to -2.54 +/- 0.62 after 2 years. The mean height age difference minus the bone age difference became positive in these children. We conclude that recombinant GH increases the growth rate in children with congenital heart disease and prepubertal growth retardation.
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PMID:Treatment of children with congenital heart disease and growth retardation with recombinant human growth hormone. 864 62

Evidence has accumulated regarding acromegalic heart muscle disease which existence now appears to be unequivocal. We took an advantage of a large group of acromegalic patients being followed-up at our institution for a long time and have studied pattern, nature and reversibility of acromegalic heart disease. Its major manifestation is cardiac hypertrophy expressed especially as left ventricular hypertrophy. The cardiac hypertrophy is slowly reversible after normalization of plasma growth hormone levels due to successful treatment. This we have first suggested on the basis of a retrospective analysis of clinical and echocardiographic data in 78 patients with acromegaly and subsequently confirmed by a 10-year prospective follow-up of the original patient cohort. We have also showed that effective treatment of acromegaly with a new slow release somatostatine analogue lanreotide leads to regression of cardiac hypertrophy.
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PMID:Heart disease in acromegaly. 871 97

Patients with acromegaly have significant morbidity and mortality, associated with cardiovascular disease. Acromegaly is often complicated by other diseases such as diabetes mellitus, hypertension, and coronary artery disease, so the existence of acromegalic cardiomyopathy remains uncertain. Cardiac performance was investigated in patients with uncomplicated acromegaly. A subgroup of hypertensive acromegalics was also studied. In addition, the effects of chronic octreotide therapy or surgery on cardiac structure and function in acromegaly were studied. Twenty-six patients and 15 healthy controls underwent gated blood-pool cardiac scintigraphy and echocardiography at rest and during exercise. Echocardiography was repeated after 6 months of octreotide therapy (n = 11). Cardiac scintigraphy was repeated after 12 and 24 months of octreotide therapy (n = 10) or 12 to 24 months after surgery (n = 8). ECG, blood pressure, and heart rate were monitored during cardiac scintigraphy. Left ventricular mass (LVM) was calculated from the findings of the echocardiography. Serum growth hormone (GH) levels and plasma insulin-like growth factor-1 (IGF-1) levels were monitored. LVM index was significantly higher (P < .003) in acromegalics than controls and in hypertensive acromegalics than normotensives, but all other indices of cardiac function were similar. Chronic octreotide decreased GH and IGF-1 levels and improved the structural abnormalities as measured by echocardiography. Chronic octreotide or surgery did not alter cardiac function parameters. Thus, important changes in cardiac structure and function occur in uncomplicated acromegaly, and improvements can be demonstrated after chronic octreotide therapy. Heart disease in acromegaly appears to be secondary to high circulating GH levels.
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PMID:Cardiovascular aspects in acromegaly: effects of treatment. 876 83

The primary nutritionally linked diseases are coronary heart disease, stroke and cancers of the stomach, colon, pancreas, prostate, breast, ovary, and endometrium. Dietary fats operate through a promoting mechanism. An S-shaped dose-response curve with a threshold has been demonstrated in models of breast and colon cancer in which the standard Western fat intake of 40% of energy yields a high level of promotion, and reduction of fat to 10% to 20% of energy (the traditional Japanese fat intake) has a low promoting action. In models of breast and colon cancer, saturated fats such as beef fat or lard, and monounsaturated oils, such as olive oil, display only a weak promoting effect, with the incidence of induced tumors being similar at intake levels of 40% and 10% of energy. On the other hand, the n-6-polyunsaturated oils display a strong promoting effect. Such findings may have a parallel in the low but definitely increasing slope of postmenopausal breast cancer incidence in the past 30 years as the American public decreased saturated fat intake to avoid heart disease and increased use of the n-6-polyunsaturated oils. Mechanisms underlying the cancer-promoting effect in the colon stem from increased hepatic production of bile acids, which are transferred to the intestinal tract via the bile. Ingestion of 40% fat calories yields higher concentrations of bile acids in the colon than lower levels of dietary fat ingestion. Cancer in the mammary gland is promoted through higher concentrations of fats and phospholipids in the gland as well as increased levels of estrogen secondary to production by the ovary and other endocrine tissues that, in turn, affect the generation of pituitary hormones such as prolactin and growth hormone. The n-3-fats, as found in fish and fish oils, have a pronounced inhibitory effect in models of colon and breast cancer, presumably through their shifting of prostaglandin metabolism to the generation of prostaglandins, which lower cell proliferation potential and, thus, decrease promotional effects. The role of dietary fat as a promoter can be modified by other nutritional components. Finally, one of the best pieces of evidence for an enhancing effect of many dietary fats in the nutritionally linked cancers is the current increase in the incidence of these diseases in Japan as the nutritional habits of people in that country become more Westernized.
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PMID:Dietary fat and risk of chronic disease: mechanistic insights from experimental studies. 921 63

A perioperative anesthetic management of a 69 year old woman with acromegaly whose clinical course was characterized by severe heart failure is described. The patient showed symptoms of massive cardiomegaly. Endocrine studies indicated that her pituitary tumor was active with hyperproduction of growth hormone. There was no demonstrable evidence for other known causes of heart disease. Following hormonal therapy using continuous subcutaneous infusion of somatostatin for about two months, there was improvement in daily activity and reduction in heart size. After the improvement of cardiac function, transsphenoidal hypophysectomy was performed under general anesthesia and its perioperative course was quite uneventful. We conclude that because cardiac involvement such as left ventricular dilatation in acromegaly might be reversible with proper treatment, any surgical procedure, as long as the case is elective, should be considered after hormone therapy.
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PMID:[A patient with acromegalic heart disease--a case report]. 925 11

Heart disease is the major cause of mortality in the developed world. Despite recent advances in the therapy of heart failure due to ACE inhibitors and beta-blockers, the prognosis of this syndrome is still poor. In the past few years, the effects of growth hormone (GH) and insulin-like growth factor-I (IGF-I) on heart morphology and function were extensively studied. Some studies dealing with experimental heart failure of animals and one controversial study dealing with human heart failure suggest positive hemodynamic effects of GH and/or IGF-I treatment. This review summarizes the physiological effects of GH/IGF-I on the myocardium, their signal transduction mechanisms, and the data currently available on the therapeutic use of these agents.
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PMID:[Hormone therapy in heart failure: growth hormone and insulin-like growth factor I]. 1102 Dec 70

Acromegaly is a consequence of chronic growth hormone (GH) excess, due in the majority of cases to a GH-secreting pituitary adenoma, and occurring with a population prevalence of 60 per million and an incidence of 3-4 per million per year. Males and females appear to be equally affected with an average age of presentation of 44 years. Younger patients may have more aggressive tumours and higher GH concentrations. There is co-existent hyperprolactinaemia in about one third of cases, and a variable proportion of [figure: see text] tumours appear to have activating mutations of the gsp gene or other genetic abnormalities. Acute complications such as carpal tunnel syndrome, sweating and obstructive sleep apnoea are usually readily reversible with treatment of the condition, but chronic complications such as hypertension, diabetes and heart disease are less readily corrected and post-treatment GH levels of < 2.5 ug/L (5 mU/L) are needed to achieve the prevalence found in the general community. Such 'curative' levels of GH are achieved in only about 50% of patients with current therapies, and as a result there is an ongoing excess of patients with chronic complications of acromegaly leading to increased morbidity and mortality from the disorder, with observed-to-expected mortality ratios ranging from 1.6-3.3 and only approaching unity in those with growth hormone levels < 2.5 ug/L following treatment. Prognostic factors include in some studies the presence of diabetes and [table: see text] hypertension prior to diagnosis as well as measures of exposure to excessive growth hormone derived from the product of preoperative serum GH and the time from first symptoms to treatment. Overall, however, the most important prognostic variable appears to be the serum GH concentration achieved by treatment, with an increasing consensus that this needs to be < 2.5 ug/L (5 mU/L) to achieve cure of the condition.
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PMID:Epidemiology of acromegaly. 1108 Nov 70

Short stature is a very common manifestation of Noonan syndrome (NS) and is accompanied by a variable delay in bone age. Although reports of adult height in NS are uncommon, some feel growth hormone therapy will increase adult height. We report our findings in 73 adults over 21 years of age with NS. Thirty percent of this group had an adult height in the normal range between 10th percentile and 90th percentile. Over half of the females and nearly 40% of males had an adult height below the 3rd percentile. The presence or severity of heart disease was not a factor, and none of the adults with a normal height had been treated with growth hormone. Serial measurements of height for many years through childhood to adulthood were available in only a few patients, but their pattern of growth suggests catch up may occur in late adolescence. To evaluate the benefit of growth hormone therapy, long term serial height measurements over a period of years comparing treated and untreated patients are needed. It will be important to determine what role, if any, the mutated PTPN 11 gene plays in the short stature common in NS.
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PMID:Adult height in Noonan syndrome. 1455 49

It has been reported that growth hormone (GH) deficiency induced cardiomyopathy responds to growth hormone replacement therapy. We describe the case of a middle-aged male with cardiomyopathic heart failure and growth hormone deficiency of the adult secondary to surgical panhypopituitarism. We demonstrate clinical and hemodynamic improvement of cardiac function with growth hormone replacement therapy despite underlying structural heart disease.
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PMID:The role of growth hormone replacement in a growth hormone deficient patient with underlying cardiomyopathy and severe congestive heart failure. 1565 91

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