UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adults with GHD have normal overnight fasting glucose levels and normal overall glucose turnover. In the absence of GH, insulin secretion is reduced and may be associated with impaired glucose tolerance. The lack of GH is associated with normal insulin sensitivity but reduced hypoglycaemic responsiveness, probably due to a reduced supply of gluconeogenic substrates. When GHD is associated with obesity, however, hyperinsulinaemia and insulin resistance ensue and hypoglycaemic responsiveness is restored. In adults with GHD, treatment with recombinant human GH for 6 months increased fasting plasma glucose to within the normal range, with no change in overall glucose turnover and carbohydrate tolerance, in the presence of elevated basal insulin levels.
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PMID:Glucose metabolism in adults with growth hormone deficiency. 178 17

Growth hormone (GH) responses to GRF (1 microgram/kg BW i.v.) were investigated. Comparison between GRF(1-40) and GRF(1-29)NH2 in 11 young adult volunteers gave identical results. One hundred and thirty-one children and adolescents (45 with idiopathic GHD) were tested with GRF (1-29)NH2. The maximal GH levels (max GH) in response to GRF during the 120 min test period were found suitable to characterize the response. In cases without GHD no correlation to age, sex and pubertal development was observed. A maximal GH level of above 10 ng/ml was found to be normal. In 3 out of 86 children without GHD (one with Turner syndrome; two with simple obesity) max GH fell short of 10 ng/ml, while 11 of 45 cases with GHD exceeded this margin. In GHD, max GH was inversely correlated with age. There was no difference in max GH between groups with or without perinatal pathology as a presumed cause of GHD. GH levels to GRF were positively correlated with maximal GH level during sleep in GHD, but not correlated with responses seen to insulin or arginine. The value of GRF testing for the confirmation of GHD is discussed in the light of other GH stimulatory tests and basal somatomedin C measurements. It is suggested that the combination of testing with GRF and the determination of a basal SmC level offers a safe and convenient way to diagnose GHD in clinically suspected cases, though in some cases further diagnostic tests may be needed.
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PMID:Testing with growth hormone-releasing factor (GRF(1-29)NH2) and somatomedin C measurements for the evaluation of growth hormone deficiency. 288 Jul 20

The clinical consequences of growth hormone (GH) deficiency (GHD) in adults have not been defined. Standard methods of measuring GH reserve in children may not be reliable in adults. In addition, obesity in normal adults diminishes GH responsiveness to provocative stimuli; this inhibition of GH release is reversed with pyridostigmine (PD). We investigated the use of GH-releasing hormone (GHRH) as a method to assess pituitary GH secretory reserve (as defined by peak GH response to GHRH) in both non-obese and obese (ie, > 115% ideal body mass index [BMI]) adults with hypothalamic-pituitary tumors. Nine non-obese patients (NOP) and 10 obese patients (OP) were studied with 11 non-obese controls (NOC) and 10 obese controls (OC). All study groups received GHRH (1 microgram/kg intravenous bolus) with blood sampling at -15, 0, 15, 30, 45, 60, 75, and 90 minutes. OC and OP received 120 mg PD orally 1 hour before GHRH injection. Mean serum GH responses in NOC and OC were significantly higher (P < .05) than those in NOP and OP, respectively, 15 minutes after GHRH injection, and remained so throughout the time-course of the test. Mean +/- standard error of the mean (SEM) peak GH level (microgram/L) was lower in NOP than in NOC (5.1 +/- 1.6 v 21.2 +/- 4.4, P < .01) and lower in OP than in OC (4.6 +/- 1.8 v 15.5 +/- 2.2, P < .01). Mean +/- SEM peak GH level was also lower in NOP than in OC (5.1 +/- 1.6 v 15.5 +/- 2.2 micrograms/L, P < .01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Serum growth hormone response to growth hormone-releasing hormone in non-obese and obese adults with hypopituitarism. 851 May 26

The GH response to provocative stimuli in obese is often as low as in panhypopituitaric patients with severe GHD; however, IGF-I levels are normal or slightly reduced. In 53 patients with simple obesity (11 M and 42 F, age: 40.3+/-1.6 yr, BMI: 39.1+/-1.0 Kg/m2), we evaluated the GH response to GHRH (1 microg/kg iv)+arginine (ARG, 0.5 g/kg iv), and total IGF-I levels. The mean (+/-SE) GH peak after GHRH+ARG was markedly lower (74% reduction, p<0.0001) in obese (16.8+/-2.0 microg/l) than in normal subjects (62.7+/-4.3 microg/l). IGF-I levels in obese patients (134.0+/-7.6 microg/l) were lower (33% reduction, p<0.001) than in normal subjects (200.8+/-5.7 microg/l). Taking into account the 3rd centile limit of normal response, the GH response to GHRH+ARG was reduced in 62.3% (33/53) of the obese patients, and 21.2% (7/33) of them had low IGF-I levels. Assuming the 1st centile limit, it was reduced in 33.9% (18/53) obese subjects, and 22% (4/18) of them had low IGF-I levels. Considering 3.0 microg/L as arbitrary cut-off, the GH response was reduced in 5.7% (3/53) of the obese patients, and still one of them had low IGF-I levels. Our findings: a) confirm that the secretory capacity of somatotroph cells is often deeply impaired in obesity; b) demonstrate that IGF-I assay generally rules out severe impairment of GH/IGF-I axis in obese patients with marked reduction of the GH secretion; c) indicate that the percentage of obese patients with concomitant reduction of GH secretion and IGF-I levels is not negligible. Thus, IGF-I assay should be routinely performed in obese patients; those presenting with low IGF-I levels should undergo further evaluation of their hypothalamo-pituitary function and morphology, particularly in the presence of empty sella.
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PMID:Assessment of GH/IGF-I axis in obesity by evaluation of IGF-I levels and the GH response to GHRH+arginine test. 1043 51

Growth hormone (GH) deficiency in adults is characterized by central obesity, dyslipidemia, coagulopathy and glucose intolerance, all features of the "metabolic syndrome", explaining the increased cardiovascular morbidity and mortality associated with GH deficiency in adults. Employing the 2-step euglycemic-hyperinsulinemic clamp, we have demonstrated severe insulin resistance in GH-deficient adults, with a reduction in insulin-mediated glucose utilization of -50%. Basal glucose turnover and partitioning of whole body glucose utilization into glycolytic flux (GF) and glycogen synthesis/glucose storage (GS) pathways are normal, but insulin activation of these 2 pathways is reduced, predominantly in the GS pathway. Activation of muscle glycogen synthase by insulin is markedly decreased, as is glycogen content of muscle. Insulin-induced muscle hexokinase activity appears also to be attenuated in GH-deficient adults with raised intramuscular cellular glucose and normal-reduced concentrations of glucose-6-phosphate. Beta-cell function is not excessive in GH-deficient adults and is inappropriately low for the insulin resistance. Following treatment of GH-deficient adults with recombinant GH (rhGH), the insulin resistance is either unchanged or more pronounced by 3, 6 or 24 months of treatment, despite the significant reduction in general and central obesity. The GF and GS pathways and muscle glycogen synthase and hexokinase activities remain severely impaired. Abnormalities in free fatty acid (FFA) metabolism are present in rhGH-treated GH-deficient adults and correlate significantly with the degree of insulin resistance as do the concentrations of rhGH-induced insulin-like growth factor (IGF)-I, the post-basal insulinemia and the duration of the GHD, but is independent of obesity. In conclusion, long-term rhGH treatment in GH-deficient adults results in persistent insulin resistance and abnormalities in the GF and GS pathways due to reduced glycogen synthase and hexokinase activities, in the presence of an ongoing reduction of central obesity. We postulate that the insulin resistance is due to chronic rhGH-induced alterations in FFA metabolism, non-physiological levels of IGF-I and chronic basal hyperinsulinemia.
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PMID:Insulin sensitivity in growth hormone (GH)-deficient adults and effect of GH replacement therapy. 1044 67

Prader-Labhart-Willi syndrome (PWS) is the most frequent form of syndromal obesity. Its main features are associated with hypothalamic dysfunction, which has not yet been comprehensively described. The aim of this review is to present arguments to define the presence of genuine growth hormone (GH) deficiency (GHD) in these patients. Decreasing growth velocity despite the onset of obesity, reduced lean body mass in the presence of adiposity, small hands and feet, relatively low insulin-like growth factor-I and low insulin levels, as well as the dramatic effect of GH treatment on growth, support the presence of hypothalamic GHD in PWS. Even though it might be difficult to ultimately prove GHD in PWS because of the obesity-induced counterregulation, the hormonal situation differs from that in simple obesity. The effects of long-term therapies with GH on body composition in these patients are summarized. GH therapy dramatically changes the phenotype of PWS in childhood: height and weight become normal and there is a sustained impact on the net loss of body fat. We conclude that GHD may account for several features of PWS.
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PMID:Is there growth hormone deficiency in prader-willi Syndrome? Six arguments to support the presence of hypothalamic growth hormone deficiency in Prader-Willi syndrome. 1097 Nov 4

It is now evident that an increased amount of intra-abdominal (visceral) adipose tissue is associated with an impaired metabolic profile, increasing the risk of CVD and NIDDM. Visceral obesity also appears to be associated with impaired GH action. GH replacement therapy in patients with GHD, or GH treatment of viscerally obese individuals, is able to induce a profound reduction in the amount of visceral adipose tissue and to improve the metabolic profile.
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PMID:Effects of growth hormone treatment on visceral adipose tissue. 1099 Jan 32

Obesity, poor growth, and hypotonia in children with Prader-Willi syndrome (PWS) are accompanied by abnormal body composition resembling a GH-deficient state. Hypothalamic dysfunction in PWS includes decreased GH secretion, suggesting a possible therapeutic role for GH treatment. While short-term benefits of treatment with GH have been shown, whether these beneficial effects are dose dependent and persist or wane with prolonged therapy remains uncertain. Effects of 24 additional months of GH treatment at varying doses (0.3, 1.0, and 1.5 mg/m(2).d) on growth, body composition, strength and agility, pulmonary function, resting energy expenditure (REE), and fat utilization were assessed in 46 children with PWS, who had previously been treated with GH therapy (1 mg/m(2).d) for 12-24 months. Percent body fat, lean muscle mass, and bone mineral density (BMD) were measured by dual x-ray absorptiometry. Indirect calorimetry was used to determine REE and to calculate respiratory quotient. A modified Bruininks-Oseretski test of physical performance evaluated strength and agility. During months 24-48 of GH therapy, continued beneficial effects on body composition (decrease in fat mass and increase in lean body mass), growth velocity, and REE occurred with GH therapy doses of 1.0 and 1.5 mg/m(2).d (P < 0.05), but not with 0.3 mg/m(2).d. BMD continued to improve at all doses of GH (P < 0.05). Prior improvements in strength and agility that occurred during the initial 24 months were sustained but did not improve further during the additional 24 months regardless of dose. Salutary and sustained GH-induced changes in growth, body composition, BMD, and physical function in children with PWS can be achieved with daily administration of GH doses > or =1 mg/m(2). Lower doses of GH, (0.3 mg/m(2).d) effective in improving body composition in GHD adults, do not appear to be effective in children with PWS at sustaining improvement in body composition.
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PMID:Benefits of long-term GH therapy in Prader-Willi syndrome: a 4-year study. 1193 86

Prader-Willi syndrome (PWS) is a genetic disorder characterized by mild mental retardation, short stature, abnormal body composition, muscular hypotonia and distinctive behavioural features. Excessive eating causes progressive obesity with increased cardiovascular morbidity and mortality. In the PWS genotype loss of one or more normally active paternal genes in region q11-13 on chromosome 15 is seen. It is supposed that the genetic alteration leads to dysfunction of several hypothalamic centres and growth hormone (GH) deficiency (GHD) is common. PWS is well described in children, in whom GH treatment improves body composition, linear growth, physical strength and agility. Few studies have focused on adults. We examined a cohort of 19 young adults with clinical PWS (13 with positive genotype) and mean BMI of 35 kg/m2. At baseline the activity of the GH-insulin-like growth factor-I (IGF-I) system was impaired with low GH values, low total IGF-I and in relation to the obesity low levels of free IGF-I and non-suppressed IGF-binding-protein-1 (IGFBP-1). 2/3 were hypogonadal. Bone mineral density (BMD) was low. Four patients had impaired glucose tolerance and nine patients high homeostasis model assessment (HOMA) index, indicating insulin resistance. Seven patients had a moderate dyslipidemia. The 13 patients with the PWS genotype were shorter and had significantly lower IGF-I. Seventeen (9 men and 8 women), subsequently completed a 12 months GH treatment trial, and GH had beneficial effects on body composition without significant adverse effects. The effects were more pronounced in the patients with the PWS genotype. Analysis of peptides involved in appetite regulation showed that leptin levels were high reflecting obesity and as a consequence NPY levels were low. In relation to the patients obesity circulating oxytocin levels were abnormally low and ghrelin levels abnormally high. Thus, oxytocin and ghrelin might be involved in the hyperphagia. NPY, leptin and ghrelin did not change during GH treatment. In conclusion this pilot study showed that adults with PWS have a partial GH deficiency, and GH treatment has beneficial effects on body composition in adult PWS without significant side-effects. Larger and longer term studies on the effect of GH replacement in adult PWS are encouraged.
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PMID:Endocrine and metabolic aspects of adult Prader-Willi syndrome with special emphasis on the effect of growth hormone treatment. 1470 May 52

The identification of adults with severe growth hormone (GH) deficiency (GHD) is not straightforward. The insulin tolerance test remains the gold standard diagnostic test, although other stimuli such as GH-releasing hormone-arginine are gaining acceptance. Insulin-like growth factor-I has a poor diagnostic sensitivity in adult-onset GHD, but is more useful in the subgroup of adults with childhood-onset GHD. Therapeutic developments include increasing recognition of the need to continue GH therapy beyond final height in young adults with severe GHD on retesting. Consensus guidelines have provided a useful algorithm to identify individuals requiring retesting and the number of tests needed. The concept of partial GHD, recognized by paediatric endocrinologists for many years, is being examined in adults with hypothalamic-pituitary disease. Preliminary evidence suggests that this entity is associated with metabolic and anthropometric abnormalities intermediate between those in severe GHD and in healthy controls. It remains to be seen whether this subgroup will derive benefit from GH therapy. To date, therapeutic benefits of GH have been demonstrated only in adults with severe GHD. It is, therefore, imperative that these individuals are unequivocally identified; the diagnosis becomes more uncertain in the presence of obesity, increasing age, and in the absence of additional pituitary hormone deficits.
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PMID:Defining growth hormone status in adults with hypopituitarism. 1738 9

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