UMLS:C0432222 - FACTA Search

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Short-term luminal infusion in utero (3 days) of insulin-like growth factor I (IGF-I) failed to protect the fetal small intestine against atrophy induced by ablation of swallowing. Human recombinant IGF-1 (or vehicle) was infused into the duodenum of fetal sheep at 125 days' gestation for 3 days (day 1, 0.025 mg; day 2, 0.25 mg: day 3, 2.5 mg). Fetal swallowing was prevented by esophageal ligation, and a carotid catheter was implanted for blood sampling. There were no changes in body growth of in major organ growth. Small intestinal (SI) weight (corrected for body weight) was significantly lower for IGF-I treated fetuses. Villus height decreased significantly in proximal regions. Villus enterocyte cellularity was reduced significantly in the proximal regions. The percentage of crypt cells labeled with a 4-hour pulse of tritiated thymidine (as assessed by autoradiography) decreased significantly in the proximal SI only, from 16.14% (1.06% SEM) to 13.28% (1.05% SEM) (P < .05). Plasma levels of IGF-1 increased in the treated fetuses by an average of 76%. IGF-1 immunoreactivity was detected in the apical endocytic complex of enterocytes from proximal SI. This study shows that wasting of fetal intestinal tissues in the absence of enteral input cannot be prevented by IGF-1 delivered luminally.
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PMID:Failure of short-term luminal IGF-I to protect against atrophy in a model of fetal esophageal atresia. 858 26

Body composition changes with increasing age in men, in that lean body mass decreases whereas fat mass increases. Whether this altered body composition is related to decreasing physical activity or to the known age-associated decrease in growth hormone secretion is uncertain. To address this question, three groups of healthy men (n = 14 in each group), matched for weight, height and body mass index, were investigated using dual-energy X-ray absorptiometry, indirect calorimetry and estimate of daily growth hormone secretion [i.e. plasma insulin-like growth factor I (IGF-I-) levels]. Group 1 comprised young untrained subjects aged 31.0 +/- 2.1 years (mean +/- SEM) taking no regular physical exercise; group 2 consisted of old untrained men aged 68.6 +/- 1.2 years; and group 3 consisted of healthy old men aged 67.4 +/- 1.2 years undergoing regular physical training for more than 10 years with a training distance of at least 30 km per week. Subjects in group 3 had for the past three years taken part in the 'Grand Prix of Berne', a 16.5-km race run at a speed of 4.7 +/- 0.6 min km-1 (most recent race). Fat mass was more than 4 kg higher in old untrained men (P < 0.01, ANOVA) than in the other groups (young untrained men, 12.0 +/- 0.9 kg; old untrained men, 16.1 +/- 1.0 kg; old trained men, 11.0 +/- 0.8 kg), whereas body fat distribution (i.e. the ratio of upper to lower body fat mass) was similar between the three groups. The lean mass of old untrained men was more than 3.5 kg lower (P < 0.02, ANOVA) than in the other two groups (young untrained men, 56.4 +/- 1.0 kg; old untrained men, 52.4 +/- 1.0 kg; old trained men, 56.0 +/- 1.0 kg), mostly because of a loss of skeletal muscle mass in the arms and legs (young untrained men, 24.0 +/- 0.5 kg; old untrained men 20.8 +/- 0.5 kg; old trained men, 23.6 +/- 0.7 kg; P < 0.01, ANOVA). Resting metabolic rate per kilogram lean mass decreased with increasing age independently of physical activity (r = -0.42, P < 0.005). Fuel metabolism was determined by indirect calorimetry at rest. Protein oxidation was similar in the three groups. Old untrained men had higher (P < 0.001) carbohydrate oxidation (young untrained men, 13.2 +/- 1.0 kcal kg-1 lean mass; old untrained men, 15.2 +/- 1.3 kcal Kg-1; old trained men, 7.8 +/- 0.8 kcal kg-1), but lower (P < 0.05, ANOVA) fat oxidation (young untrained men, 10.1 +/- 1.2 kcal kg-1 lean mass; old untrained men, 6.5 +/- 1.0 kcal kg-1; old trained men, 13.7 +/- 1.0 kcal kg-1) than the other two groups. Mean plasma IGF-I level in old trained men was higher than in old untrained men (P < 0.05), but was still lower than that observed in young untrained men (P < 0.005) (young untrained men, 236 +/- 24 ng mL-1; old untrained men, 119 +/- 13 ng mL-1; old trained men, 166 +/- 14 ng mL-1). In summary, regular physical training in older men seems to prevent the changes in body composition and fuel metabolism normally associated with ageing. Whether regular physical training in formerly untrained old subjects would result in similar changes awaits further study.
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PMID:Effect of regular physical training on age-associated alteration of body composition in men. 873 84

Reduced insulin-like growth factor bioactivity has been linked to poor metabolic control and growth hormone hypersecretion in adolescents with Type 1 diabetes. The safety and efficacy of recombinant human insulin-like growth factor I administered subcutaneously in a dose of 40 micrograms kg-1 for 28 days was studied in a group of 6 adolescent male subjects with Type 1 diabetes (aged 13.6-19.4 years, puberty stage 3-5). After a 4-week run-in period (week -4 day 0) recombinant human insulin-like growth factor I was administered for 4 weeks (day 0 to week +4) before a run-out of a further 4 weeks duration (week +4 to +8). HbA1c levels were measured throughout the study and overnight profiles were undertaken to study levels of insulin-like growth factor 1, insulin-like growth factor binding protein-3, and growth hormone concentrations (week -1, day 0, and week +4). The injections were well tolerated and hypoglycaemia was not problematic at any stage of the study. Recombinant insulin-like growth factor I administration appeared to lead to a sustained increase in insulin-like growth factor I levels (week -1; 198 +/- 16 ng ml-1, week +4; 422 +/- 18 ng ml-1, mean +/- SEM; p = 0.03). Insulin-like growth factor binding protein-3 concentrations (n = 6) increased in 5 subjects (week -1; 4.5 +/- 0.3 micrograms ml-1, week +4; 5.1 +/- 0.4 micrograms ml-1) and mean overnight growth hormone decreased (week -1; 14.0 +/- 3.1 mUI-1, week +4; 7.6 +/- 1.7 mUI-1) during the period of study but these differences were not statistically significant. HbA1c levels fell significantly at the time of rhIGF-I administration (day 0; 10.4 +/- 1.9% vs week +4; 9.4 +/- 1.9%; p = 0.03) despite a reduction in subcutaneous isophane insulin dose from 0.50 +/- 0.02 U kg-1 to 0.41 +/- 0.02 U kg-1 (p = 0.03). There was no significant change in biochemical and haematological indices, glomerular filtration rate or urinary albumin excretion. The restoration of IGF-I levels in adolescents with Type 1 diabetes may have a beneficial impact on glycaemic control.
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PMID:The effects of repeated daily recombinant human insulin-like growth factor I administration in adolescents with type 1 diabetes. 884 79

The decrease in adult height of children who have been given cranial irradiation (24 Gy) for acute lymphoblastic leukaemia is attributed to chemotherapy, growth hormone (GH) deficiency and early puberty. This study evaluates the factors involved in the height loss between irradiation and adult height and its markers in 43 patients irradiated at 5.8 +/- 0.4 (SEM) years. The mean height loss was 0.9 +/- 0.2 SD in the children with a normal GH peak (n = 11), 1.7 +/- 0.2 SD in those with a low GH peak and untreated (n = 15) and 0.6 +/- 0.2 SD in those treated with GH (n = 17). The adult height was significantly lower than target height in all three groups. The height loss correlated negatively with the GH peak (p < 0.02) and with the age at onset of puberty (p < 0.05) in the first two groups with spontaneous growth, but not with the chemotherapy regimen or its duration, or the plasma insulin-like growth factor I (IGFI) and its GH-dependent binding protein (BP-3). Early puberty (onset at 8-10 years) occurred in 6 girls from the first two groups. At the first evaluation, 5.6 +/- 0.4 years after irradiation, the GH peak values after arginine-insulin stimulation correlated with the age at irradiation (p < 0.03), taking into account the time since irradiation. The plasma IGFI and BP-3 values were correlated with each other, but not with the GH peak. In conclusion, this study demonstrates the impact of GH deficiency and GH replacement therapy on adult height in children given cranial irradiation for leukaemia. They therefore should be evaluated for their GH secretion 1-2 years after the end of chemotherapy. GH therapy is indicated for those with low GH peak and decreased growth rate or no increase in growth rate despite puberty.
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PMID:Adult height after cranial irradiation with 24 Gy: factors and markers of height loss. 888 25

Plasma prorenin and renin, serum insulin-like growth factor I (IGF-I) and IGF-binding protein (IGFBP-2 and IGFBP-3) concentrations were measured in 22 randomly selected male and female patients with insulin-dependent diabetes mellitus (IDDM) or non-IDDM (NIDDM). Plasma prorenin concentration was significantly elevated in patients with proliferative retinopathy (1869.5 +/- 785.0 mUL-1, mean +/- SEM) compared to patients with nonproliferative retinopathy (325.5 +/- 73.2 mUL-1, P < 0.003) and those without retinopathy (318.6 +/- 47.3 mUL-1, P < 0.007). Similarly, serum insulin-like growth factor-I (IGF-I) concentration in patients with proliferative retinopathy (126.3 +/- 21.5 micrograms L-1) was significantly higher than in patients with nonproliferative retinopathy (126.3 +/- 14.85 micrograms L-1, P < 0.004) and without retinopathy (135.2 +/- 37.26, P < 0.05). There was moderately strong positive correlation between plasma prorenin and serum IGF-I concentrations (r = 0.56, P < 0.01). Plasma prorenin concentration was uninfluenced by change in renal function (creatinine clearance, serum creatinine or BUN), but IGF-I levels were inversely related to creatinine clearance (r = 0.67, P < 0.002). There was no demonstrable relationship between IGF-binding proteins and prorenin or renin concentrations. In view of some overlap between plasma prorenin and serum IGF-I concentrations in diabetic patients with proliferative and nonproliferative retinopathy, measurement of both markers may be more useful in predicting the development of proliferative retinopathy in patients with diabetes mellitus than either measurement alone.
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PMID:Relationship between prorenin, IGF-I, IGF-binding proteins and retinopathy in diabetic patients. 891 51

In adulthood the growth hormone (GH) response to growth hormone-releasing hormone (GHRH) is inhibited by previous acute administration of either GH or GHRH and it is restored by substances that inhibit hypothalamic somatostatin release. Because in children the GH response to GHRH is not affected by previous neurohormone administration, it has been suggested that in childhood a GH increase is not able to trigger the somatostatin-mediated negative GH autofeedback mechanism. To verify this hypothesis, in 25 children (8 girls and 17 boys; 15 prepubertal and 10 in pubertal stages II-IV) with familial short stature (normal height velocity and insulin-like growth factor I levels) we studied the effect of acute i.v. administration of different recombinant human GH doses (group 1, N = 5, 0.06 U/kg; group 2, N = 6, 0.01 U/kg; group 3, N = 7, 0.005 U/kg at - 150 min) or saline on the GH response to GHRH (1 microgram/kg i.v. at 0 min). In another group (N = 7), we studied the effect of 0.005 U/kg iv recombinant human GH or saline on the GH response to GHRH combined with arginine (0.5 g/kg i.v. over 30 min), which likely inhibits hypothalamic somatostatin release. Serum GH increases after recombinant human GH were dose-dependent (GH peak, mean +/- SEM, 171.7 +/- 24.4, 33.3 +/- 3.9 and 21.8 +/- 5.1 micrograms/l, respectively). The administration of recombinant human GH strongly inhibited the GHRH-induced GH rise in all groups (group 1, 7.1 +/- 1.7 vs 23.1 +/- 7.6 micrograms/l, p < 0.05; group 2, 9.5 +/- 2.8 vs 26.9 +/- 8.5 micrograms/l, p < 0.05; group 3, 9.1 +/- 2.7 vs 34.8 +/- 7.2 micrograms/l, p < 0.02). The GH response to arginine + GHRH (56.9 +/- 13.3 micrograms/l) was higher than that to GHRH alone recorded in group 1 (p < 0.005), group 2 (p < 0.01) and group 3 (p < 0.01), while exogenous recombinant human GH failed to inhibit it (45.0 +/- 9.4 micrograms/l). Our results demonstrate that in childhood, as well as in adulthood, recombinant human GH administration inhibits the somatotrope responsiveness to GHRH. This inhibitory effect is likely to be mediated by hypothalamic somatostatin release.
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PMID:Acute administration of recombinant human growth hormone inhibits the somatotrope responsiveness to growth hormone-releasing hormone in childhood. 892 23

Correction of anemia with recombinant human erythropoietin (rhEPO) in patients with end-stage renal disease has been associated with improvement of several abnormalities in hypothalamo-hypophyseal functions. The aim of the present work was to evaluate the growth hormone (GH) responses to GH-releasing hormone (GHRH) and clonidine stimulation, as well as the baseline concentrations of insulin-like growth factor I(IGF-I), before and after the correction of anemia with rhEPO in a group of uremic patients undergoing continuous ambulatory peritoneal dialysis (CAPD). Nine clinically stable patients (1 male, 8 female; mean age 55.4 years; mean duration of CAPD 14.1 months) were studied. Twelve normal volunteers were studied as controls. GHRH and clonidine stimulation tests were performed prior to starting rhEPO and again after partial correction of anemia with rhEPO therapy (60-130 U/kg/week, s.c., for 12 weeks). Blood samples for GH were collected during 2 h after GHRH (100 micrograms i.v. in bolus) or clonidine (0.15 mg/m2, p.o.) administration. In basal plasma samples IGF-I concentrations were also measured. Mean (+/- SEM) blood hemoglobin concentration rose from 5.32 +/- 0.25 to 7.22 +/- 0.25 mmol/l (p < 0.001) after rhEPO treatment. GH responses to GHRH were characterized by marked differences in single patients when compared with the control group. However, the GH peak and the area under the secretory curves (AUC) of GH responses in CAPD patients (9.89 +/- 4.01 micrograms/l and 15.06 +/- 6.02 micrograms.h/l, respectively) did not differ from those obtained in control subjects (14.58 +/- 3.25 microgram/l and 16.94 +/- 4.31 microgram.h/l, respectively). The study after correction of anemia showed an evident potentiation of GH values that reached statistically significant values at 60 and 90 min. GH AUC after rhEPO therapy rose to 25.61 +/- 9.25 micrograms.h/l (p = 0.01). In control subjects, clonidine administration was followed by a GH release that reached a maximum at 90 min (7.67 +/- 2.24 micrograms/l). However, CAPD patients exhibited a blunted response to clonidine both before (2.00 +/- 0.78 microgram/l) and after (2.78 +/- 0.76 microgram/l, NS) correction of the anemia with rhEPO. On the other hand, IGF-I concentrations after rhEPO therapy (32.05 +/- 5.52 nmol/l) were not significantly different from those found prior to starting therapy (38.13 +/- 8.44 nmol/l). In conclusion, these results suggest that correction of the anemia with rhEPO therapy potentiates GH responses to direct pituitary stimulation with GHRH although it is unable to restore the blunted response of GH to clonidine that is found in CAPD patients.
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PMID:Growth hormone responses to growth hormone-releasing hormone and clonidine before and after erythropoietin therapy in CAPD patients. 893 79

Prolonged critical illness is characterized by protein hypercatabolism and preservation of fat depots, associated with blunted GH secretion, elevated serum cortisol levels, and low insulin-like growth factor I (IGF-I) concentrations. In this condition, GH is readily released in response to a bolus of GHRH and GH-releasing peptide-2 (GHRP-2) and, paradoxically, to TRH. We further explored the altered somatotropic axis and cortisol secretion in critical illness by examining the effects of continuous GHRH and/or GHRP-2 infusion. Twenty-six critically ill adults (mean age +/- SEM, 63 +/- 2 yr) were studied during 2 consecutive nights (2100-0600 h). According to a weighed randomization, they received one of four combinations of infusions within a randomized cross-over design for each combination: placebo (one night) and GHRP-2 (the other night; n = 10), placebo and GHRH (n = 4), GHRH and GHRP-2 (n = 6), and GHRP-2 and GHRH plus GHRP-2 (n = 6). The peptide infusions (duration, 21 h) were started after a bolus of 1 microgram/kg at 0900 h and infused (1 microgram/kg/h) until 0600 h. Serum concentrations of GH were determined every 20 min, cortisol every hour, and IGF-I at 2100 and 0600 h on each study night. The placebo profiles showed pulsatile GH secretion with low secretory burst amplitude [0.062 +/- 0.008 microgram/L distribution volume (Lv)/min], high burst frequency (6.6 +/- 0.4 events/9 h), and detectable basal secretion (0.041 +/- 0.009 microgram/L/min) in the face of low serum IGF-I (106 +/- 11 micrograms/L). IGF-I correlated positively and significantly with the basal component, the pulsatile component, and the total amount of nightly GH secretion. GHRH elicited a 2- to 3-fold increase in the mean GH concentration (P = 0.006), the GH secretory burst amplitude (P = 0.007), and basal GH secretion (P = 0.03). GHRP-2 provoked a 4- to 6-fold increase in the mean GH concentration (P < 0.0001), the GH secretory burst amplitude (P = 0.002), and basal GH secretion (P = 0.0007), which were associated with a 61 +/- 13% increase in serum IGF-I within 24 h (P = 0.02). Compared to GHRP-2 alone, GHRH plus GHRP-2 elicited a further 2-fold increase in the mean GH concentration (P = 0.04) and GH basal secretion (P = 0.02), and an additional 40 +/- 6% rise in serum IGF-I (P = 0.04). GHRH and GHRP-2 infusion did not alter elevated cortisol levels. In critically ill adults, low serum IGF-I levels were positively correlated with diminished pulsatile and increased basal GH secretion. Both basal and pulsatile GH secretion were moderately increased by continuous infusion of GHRH, substantially increased by GHRP-2, and strikingly increased by GHRH plus GHRP-2. GHRP-2 alone or combined with GHRH elicited a robust rise in circulating IGF-I levels within 24 h without altering serum cortisol levels. These findings open perspectives for GH secretagogues as potential antagonists of the catabolic state in critical care medicine.
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PMID:The somatotropic axis in critical illness: effect of continuous growth hormone (GH)-releasing hormone and GH-releasing peptide-2 infusion. 902 60

Total body water (TBW) is reduced in adult GH deficiency (GHD) largely due to a reduction of extracellular water. It is unknown whether total blood volume (TBV) contributes to the reduced extracellular water in GHD. GH and insulin-like growth factor I (IGF-I) have been demonstrated to stimulate erythropoiesis in vitro, in animal models, and in growing children. Whether GH has a regulatory effect on red cell mass (RCM) in adults is not known. We analyzed body composition by bioelectrical impedance and used standard radionuclide dilution methods to measure RCM and plasma volume (PV) along with measuring full blood count, ferritin, vitamin B12, red cell folate, IGF-I, IGF-binding protein-3, and erythropoietin in 13 adult patients with GHD as part of a 3-month, double blind, placebo-controlled trial of GH (0.036 U/kg.day). TBW and lean body mass significantly increased by 2.5 +/- 0.53 kg (mean +/- SEM; P < 0.004) and 3.4 +/- 0.73 kg (P < 0.004), respectively, and fat mass significantly decreased by 2.4 +/- 0.32 kg (P < 0.001) in the GH-treated group. The baseline RCM of all patients with GHD was lower than the predicted normal values (1635 +/- 108 vs. 1850 +/- 104 mL; P < 0.002). GH significantly increased RCM, PV, and TBV by 183 +/- 43 (P < 0.006), 350 +/- 117 (P < 0.03), and 515 +/- 109 (P < 0.004) mL, respectively. The red cell count increased by 0.36 +/- 0.116 x 10(12)/L (P < 0.03) with a decrease in ferritin levels by 39.1 +/- 4.84 micrograms/L (P < 0.001) after GH treatment. Serum IGF-I and IGF-binding protein-3 concentrations increased by 3.0 +/- 0.43 (P < 0.001) and 1.3 +/- 0.15 (P < 0.001) SD, respectively, but the erythropoietin concentration was unchanged after GH treatment. No significant changes in body composition or blood volume were recorded in the placebo group. Significant positive correlations could be established between changes in TBW and TBV, lean body mass and TBV (r = 0.78; P < 0.04 and r = 0.77; P < 0.04, respectively), and a significant negative correlation existed between changes in fat mass and changes in TBV in the GH-treated group (r = -0.95; P < 0.02). We conclude that 1) erythropoiesis is impaired in GHD; 2) GH stimulates erythropoiesis in adult GHD; and 3) GH increases PV and TBV, which may contribute to the increased exercise performance seen in these patients.
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PMID:The importance of growth hormone in the regulation of erythropoiesis, red cell mass, and plasma volume in adults with growth hormone deficiency. 928 31

To assess the effects of growth hormone (GH) on serum 1,25-dihydroxyvitamin D [1,25(OH)2D], we performed the following prospective crossover study in six healthy, young, adult, white men. During each of two admissions for 2 1/2 days to a general clinical research center, subjects were placed on a daily dietary calcium intake of 400 mg. Serum calcium, phosphorus, 1,25(OH)2D, immunoreactive intact parathyroid hormone (PTH), insulin-like growth factor I (IGF-I), IGF binding protein 3 (IGFBP3), tubular reabsorption of phosphate (TMP/GFR) were measured. Recombinant human GH (rhGH, Humatrope) (25 microg/kg/day subcutaneously for 1 week) was administered prior to and during one of the admissions. Results are expressed as mean +/- SEM. Whereas serum 1,25(OH)2D (58.9 +/- 7.7 versus 51.6 +/- 7.4 pg/ml, P< 0.01), serum phosphorus (4.5 +/- 0.1 versus 3.7 +/- 0.1 mg/dl, P < 0.01), TRP (92.0 +/- 0.5 versus 87.8 +/- 0.7 mg/dl, P < 0.005), TMP/GFR (4.6 +/- 0.1 versus 3.5 +/- 0.2, P < 0.005), and urinary calcium (602 +/- 49 versus 346 +/- 25 mg/day, P < 0.001) increased significantly, serum PTH decreased significantly (19.9 +/- 1.9 versus 26.8 +/- 4.0 pg/ml, P < 0.05) and serum calcium did not change when subjects received rhGH. These findings indicate that in humans, GH affects serum 1,25(oh)2D independently of circulating PTH and that this effect is mediated by IGF-I. We propose, therefore, that one potential mechanism by which GH stimulates increases in bone mass is via modest increases in serum 1,25(OH)2D.
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PMID:Increased serum 1,25-dihydroxyvitamin D after growth hormone administration is not parathyroid hormone-mediated. 931 96

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