Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lipid metabolism was studied in 16 acromegalic patients who all underwent transsphenoidal selective pituitary adenomectomy (SPA). Before the operation, their serum lipid levels correlated with none of the basal levels of serum growth hormone (GH), basal levels of plasma somatomedin-C (SM-C), fasting levels of plasma glucose (FPG), peak levels of plasma glucose (PGp) or basal and peak levels of serum immunoreactive insulin (IRIb and IRIp, resp.) in the oral glucose tolerance test (OGTT), and obesity indices. The serum GH levels as well as plasma SM-C levels in the group with decreased serum high density lipoprotein-cholesterol (HDL-C) differed greatly from those of the normal HDL-C group. However, there was no significant difference in either serum GH or plasma SM-C between groups with and without metabolic abnormality of any other lipid examined. After the operation, the basal levels of serum GH and plasma SM-C decreased significantly. In conjunction with these changes, PGp, serum IRIb, serum triglyceride (TG), non-esterified fatty acid (NEFA) and very low density lipoprotein (VLDL) decreased significantly. In contrast, serum HDL-C increased significantly. However, FPG, serum IRIp, obesity indices, serum total cholesterol (TC) and serum low density lipoprotein (LDL) showed no significant change. There were no significant differences in the levels of any serum lipid either before or after surgery among the diabetic, borderline and normal types defined by the preoperative OGTT patterns. Atherogenic indices (AIs) decreased significantly and returned to normal postoperatively. These results suggest that obesity or secondary diabetes is not a direct cause of hyperlipidemia in acromegaly. The prognosis of acromegaly is affected by arteriosclerotic complications. It is intriguing, therefore, that AIs were normalized by transsphenoidal SPA. Being rather a safe procedure, it can be performed without hesitation, aside from a conservative treatment.
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PMID:Lipid metabolism in acromegalic patients before and after selective pituitary adenomectomy. 212 1

Heel pain is most commonly the result of mechanical abnormality in foot structure or function. Systemic disease, however, may also affect the heel, resulting in pain, deformity, or both of the rearfoot. This article discusses and reviews notable systemic conditions, exclusive of the seronegative spondyloarthropathies, which may produce subjective or objective heel findings. Specific conditions discussed are rheumatoid arthritis, crystal deposition arthropathies, osteoporosis, diffuse idiopathic skeletal hyperostosis, diabetes mellitus, hypertrophic osteoarthropathy, Paget's disease, hyperlipidemia, sarcoidosis, sickle cell anemia, and acromegaly and their effects on the heel.
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PMID:The heel in systemic disease. 218 35

The clinico-hormonal course of acromegaly and the presence of the hyperlipemic syndrome were studied in relation to age, sex, associated hypothyroidism, diabetes, obesity and cardiovascular and atherosclerotic complications in 43 acromegalic patients (18 males and 25 females) of which 6 had received no treatment and 37 had been submitted 2 - 13 years to conventional roentgentherapy (31 cases), 90Y (5 cases) and hypophysectomy (1 case). Hyperlipemia (HLP), present in 24 acromegalic patients (55.8% of the cases) unrelated to age, was more frequent in women (64% as against 44% in males) and correlated with the clinico-hormonal evolution (GH greater than 20 mg) (60% of the cases), and associated hypothyroidism (79%), obesity (42%) and diabetes (25%). Of the hyperlipemic acromegalic patients, 62% had cardiovascular and atherosclerotic complications. The results of the study point to the need for a hypoglucidic, hypolipidic and associated treatment for hypothyroidism, diabetes and obesity in the prophylaxis of acromegalic atherosclerosis.
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PMID:The dyslipemic syndrome in acromegaly. 704 Dec 36

A rare case of acromegaly developing gross hyperlipidemia not associated with overt diabetes was presented. Gross hyperlipidemia revealed type V hyperlipoproteininemia, according to agarose gel electrophoretic pattern of serum lipoprotein. Before pituitary surgery, the serum levels of cholesterol and triglyceride were 320 mg/dl and 1830 mg/dl respectively, and the basal level of growth hormone was markedly elevated, ranging from 129 to 231 ng/ml with the mean +/- SD of 168 +/- 39 ng/ml. The enzymatic activities of hepatic triglyceride lipase (H-TGL) and lipoprotein lipase (LPL) were 14.2 and 1.50 mumoles/ml/hour, respectively. H-TGL activity was normal, while LPL activity was extremely low compared to those of normal subjects. After combined therapy with pituitary surgery and 60Co radiation, the serum level of growth hormone was decreased to 35.9 +/- 8.6 ng/ml in the mean +/- SD, but not normalized. However, the serum level of triglyceride was decreased and both H-TGL and LPL activities were increased to 19.3 and 2.7 mumoles/ml/hour, respectively. LPL activity was increased 79% compared to the level of pretreatment. Agarose gel electrophoretic pattern of lipoprotein changed from type V to type IV and ultracentrifugal analysis showed that very low density lipoprotein (VLDL)-cholesterol was decreased and intermediate density lipoprotein (IDL)-cholesterol, low density lipoprotein (LDL)-cholesterol and high density lipoprotein (HDL)-cholesterol were increased.
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PMID:Secondary type V hyperlipoproteinemia in an acromegalic patient without overt diabetes. 708 27

Serum lipids were analyzed in 16 patients with active acromegaly. Of these 62.5% had hyperlipidaemia defined as exceeding and 90% fiducial limits of normal controls. The mean serum cholesterol (5.50 mmol/l) and triglyceride (4.09 mmol/l) levels of the patients were significantly higher than those of age-matched normal controls. Type V hyperlipoproteinaemia was observed in two cases and type III hyperlipoproteinaemia in one. There was no difference in the incidence of diabetes between the normolipidaemic (n = 6) and hyperlipidaemic (n = 10) groups. Serum levels of growth hormone in hypercholestelaemic patients (n = 3) were significantly higher than those of normolipidaemic patients and combined hyperlipidaemic patients (n = 5 tended to have higher levels of growth hormone than normolipidaemic patients. In cases developing type III or type V hyperlipoproteinaemia, the activity of hepatic triglyceride lipase of lipoprotien lipase was decreased, but in increased when serum GH levels fell after therapy for acromegaly. It is suggested that 1) growth hormone may play some role on the pathogenesis of hyperlipidaemia associated with acromegaly, and 2) growth hormone has an inhibitory effect on H-TGL and LPL, and so hyperlipoproteinaemia in some cases of acromegaly might be caused by low H-TGL or LPL activity resulting from high growth hormone levels.
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PMID:The incidence and pathogenesis of hyperlipidaemia in 16 consecutive acromegalic patients. 711 4

Acromegaly is a clinical syndrome that most typically is the manifestation of adenomatous hyperplasia of growth hormone-secreting cells in the pituitary gland. Although the primary process is benign, many disfiguring and potentially serious complications can develop. Because of the slow evolution of signs and symptoms, acromegaly can be a diagnostic challenge. Furthermore, many common diseases, such as hypertension, diabetes mellitus and hyperlipidemia, occur secondary to acromegaly but may initially be treated as isolated primary processes. Systematic evaluation should be performed if acromegaly is suspected. The diagnosis is based on clinical observation, hormonal assays and selective radiologic imaging. Acromegaly is most often treated surgically, but radiotherapy and drug therapy can be effective alternatives.
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PMID:Diagnosis and treatment of acromegaly. 760 64

At present, there is a growing body of evidence implicating growth hormone (GH) and/or insulin-like growth factor-I (IGF-I) in the intricate cascade of events connected with the regulation of heart development and hypertrophy. In addition, advanced clinical manifestations of abnormal GH levels almost always include impaired cardiac function, which may reduce life expectancy. This finding is related both to a primary impairment of heart structure and function and to metabolic changes such as hyperlipidaemia, increased body fat and premature atherosclerosis. Acromegalic cardiomyopathy is better correlated with disease duration than with GH or IGF-I levels. Myocardial hypertrophy with interstitial fibrosis, lymphomononuclear infiltration and areas of monocyte necrosis often result in increased right and left ventricular mass concentric hypertrophy. Conversely, patients with childhood or adult-onset GH deficiency (GHD) have a reduced left ventricular mass (LVM) and ejection fraction (EF) and the indices of left ventricular systolic function remained markedly depressed during exercise. Cardiac function is reported to improve during octreotide and GH replacement treatment in acromegaly and GHD, respectively. The evidence that GH can increase cardiac mass suggests its use in the treatment of idiopathic dilated cardiomyopathy. In a recent study on such patients, the administration of recombinant GH (rGH) was demonstrated to increase myocardial mass and reduce the size of the left ventricular chamber, resulting in improved haemodynamics, myocardial energy metabolism and clinical status.
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PMID:Effect of growth hormone on cardiac function. 935 Apr 45

At present, there is growing evidence implicating GH and/or IGF-I in the intricate cascade of events connected with the regulation of heart development and hypertrophy. Moreover, GH excess and/or deficiency have been shown to include in their advanced clinical manifestations almost always an impaired cardiac function, which may reduce life expectancy. This finding is related both to a primitive impairment of heart structure and function and to metabolic changes such as hyperlipidemia, increase of body fat and premature atherosclerosis. Patients with childhood or adulthood-onset GH deficiency have a reduced left ventricular mass and ejection fraction and the indexes of left ventricular systolic function remain markedly depressed during exercise. Conversely, in acromegaly the cardiac enlargement, which is disproportionate to the increase in size of other internal body organs, has been a rather uniform finding. The severity of the acromegalic cardiomyopathy was reported to be correlated better with the disease duration than with circulating GH and/or IGF-I levels. Myocardial hypertrophy with interstitial fibrosis, lymphomononuclear infiltration and areas of monocyte necrosis often results in concentric hypertrophy of both ventricles. The treatment of GH deficiency and excess improved cardiac function. Interestingly, based on the evidence that GH increases cardiac mass, recombinant GH was administered to patients with idiopathic dilated cardiomyopathy. It increased the myocardial mass and reduced the size of the left ventricular chamber, resulting in improvement of hemodynamics, myocardial energy metabolism and clinical status. These promising results open new perspectives for the use of GH in heart failure.
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PMID:Is growth hormone bad for your heart? Cardiovascular impact of GH deficiency and of acromegaly. 938 93

A substantial and increasing proportion of death and disability in the EU (and elsewhere) is attributable to diseases associated with insulin resistance (i.e., decreased insulin sensitivity). Beside type II diabetes, other diseases like obesity, hypertension, atherosclerosis, hyperlipidaemia, polycystic ovarian syndrome, and acromegaly are indeed associated with insulin resistance.
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PMID:The insulin-sensitive side of SHIP2. 1280 74

The most common form of diabetes, type 2 diabetes (T2D) is a major Public Health issue which is receiving a great deal of attention both in industrial and public research, in order to develop new and more effective drugs. The hyperglycaemia of T2D is the result of two interdependent defects : decreased biological efficacy of insulin in target tissues (insulin resistance), and a decreased capacity for beta cells to secrete insulin in response to glucose. Furthermore, hyperglycaemia evolves with time and even with rigorous treatment there is a progressive deterioration of glucose homeostasis. Seventy five percent of DT2 patients are obese and show a perturbed lipid profile. beta-cell plasticity is a unique property of these cells to adapt their number and volume (beta-cell mass) and their function to the increased secretory demand linked to insulin resistance. This is well documented in physiological (pregnancy) as well in pathophysiological conditions (obesity, acromegaly). Although the lack of reliable techniques makes it very difficult to document it in humans, this property is likely altered in DT2, mainly as a consequence of the prolonged exposure of islet cells to high plasma levels of glucose and free fatty acids (gluco-lipotoxicity). The mechanisms by which hyperglycaemia and hyperlipidemia exert their deleterious effects on the beta-cell include the generation of Reactive Oxygen Species (ROS) and Reactive Nitrogen Species (RNS) and Advanced Glycosylation End Products (AGE). Altogether the prevailing clinical and experimental data urge us to consider that the pathophysiology of DT2 lies, at least in part, the inability of beta-cells to adapt their functional mass to the prevailing insulin demand. This re-evaluation of the pathophysiology of DT2 stimulates the research of new therapeutic approaches aimed at maintaining and/or restoring the functional beta-cell mass by targeting the mechanisms responsible for its decrease.
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PMID:[Anatomical and functional plasticity of pancreatic beta-cells and type 2 diabetes]. 1793 2


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