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Digitale Medien

Insulin-like growth factor-I in man enhances lipid mobilization and oxidation induced by a growth hormone pulse (1996)

Bianda, T. L. ; Hussain, M. A. ; Keller, A. ; [weitere]

Springer

Diabetologia 39 (1996), S. 961-969

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Details

ISSN: 1432-0428

Schlagwort(e): Substrate oxidation ; energy expenditure ; lipolysis ; ketogenesis ; “dawn” phenomenon

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary Growth hormone (GH) secretion is suppressed during insulin-like growth factor-I (IGF-I) administration. The aim of the study was to examine whether IGF-I alters the metabolic response to a GH pulse. Seven healthy male subjects (age 27±4 years, BMI 21.8±1.7 kg/m2) were treated with NaCl 0.9% (saline) or IGF-I (8 Μg · kg−1 · h−1) for 5 days by continuous subcutaneous infusion in a randomized, crossover fashion while receiving an isocaloric diet (30 kcal · kg−1 · day−1). On the third treatment day an intravenous bolus of 0.5 U GH was administered. Forearm muscle metabolism was examined by measuring arterialized and deep venous blood samples, forearm blood flow by occlusion plethysmography and substrate oxidation by indirect calorimetry. IGF-I treatment significantly reduced insulin concentrations by 80% (p〈0.02) and C-peptide levels by 78% (p〈0.02), as assessed by area under the curve. Non-esterified fatty acid (NEFA), glycerol and 3-OH-butyrate levels were elevated and alanine concentration decreased. Forearm blood flow rose from 2.10±0.43 (saline) to 2.79±0.37 ml · 100ml−1 · min−1 (IGF-I) (p〈0.02). GH-pulse: 10 h after i.v. GH injection serum GH peaked at 40.9±7.4 ng/ml. GH did not influence circulating levels of total IGFI, C-peptide, insulin or glucose, but caused a further increase in NEFA, glycerol and 3-OH-butyrate levels, indicating enhanced lipolysis and ketogenesis. This effect of GH was much more pronounced during IGF-I: NEFA rose from 702±267 (saline) and 885±236 (IGF-I) to 963±215 (saline) (p〈0.05) and 1815±586 Μmol/l (IGF-I) (p〈0.02), respectively; after 5 h, 3-OH-butyrate rose from 242±234 (saline) and 340±280 (IGF-I) to 678±638 (saline) (p〈0.02) and 1115±578 Μmol/l (IGF-I) (p〈0.02) respectively. After injection of GH, forearm uptake of 3-OH-butyrate was markedly elevated only in the subjects treated with IGF-I: from 44±195 to 300±370 after 20 min (p〈0.03) and to 287±91 nmol · 100 ml−1 · min−1after 120 min (p〈0.02). In conclusion, the lipolytic and ketogenic response to GH was grossly enhanced during IGF-I treatment, and utilization of ketone bodies by skeletal muscle was increased.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00403916

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Digitale Medien

Insulin-like growth factor-I in man enhances lipid mobilization and oxidation induced by a growth hormone pulse (1996)

Bianda, T. L. ; Hussain, M. A. ; Keller, A. ; [weitere]

Springer

Diabetologia 39 (1996), S. 961-969

zur Merkliste hinzufügen auf der Merkliste

Details

ISSN: 1432-0428

Schlagwort(e): Keywords Substrate oxidation ; energy expenditure ; lipolysis ; ketogenesis ; “dawn” phenomenon.

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary Growth hormone (GH) secretion is suppressed during insulin-like growth factor-I (IGF-I) administration. The aim of the study was to examine whether IGF-I alters the metabolic response to a GH pulse. Seven healthy male subjects (age 27 ± 4 years, BMI 21.8 ± 1.7 kg/m2) were treated with NaCl 0.9 % (saline) or IGF-I (8 μg · kg–1· h–1) for 5 days by continuous subcutaneous infusion in a randomized, crossover fashion while receiving an isocaloric diet (30 kcal · kg–1· day–1). On the third treatment day an intravenous bolus of 0.5 U GH was administered. Forearm muscle metabolism was examined by measuring arterialized and deep venous blood samples, forearm blood flow by occlusion plethysmography and substrate oxidation by indirect calorimetry. IGF-I treatment significantly reduced insulin concentrations by 80 % (p 〈 0.02) and C-peptide levels by 78 % (p 〈 0.02), as assessed by area under the curve. Non-esterified fatty acid (NEFA), glycerol and 3-OH-butyrate levels were elevated and alanine concentration decreased. Forearm blood flow rose from 2.10 ± 0.43 (saline) to 2.79 ± 0.37 ml · 100ml–1· min–1 (IGF-I) (p 〈 0.02). GH-pulse: 10 h after i. v. GH injection serum GH peaked at 40.9 ± 7.4 ng/ml. GH did not influence circulating levels of total IGF-I, C-peptide, insulin or glucose, but caused a further increase in NEFA, glycerol and 3-OH-butyrate levels, indicating enhanced lipolysis and ketogenesis. This effect of GH was much more pronounced during IGF-I: NEFA rose from 702 ± 267 (saline) and 885 ± 236 (IGF-I) to 963 ± 215 (saline) (p 〈 0.05) and 1815 ± 586 μmol/l (IGF-I) (p 〈 0.02), respectively; after 5 h, 3-OH-butyrate rose from 242 ± 234 (saline) and 340 ± 280 (IGF-I) to 678 ± 638 (saline) (p 〈 0.02) and 1115 ± 578 μmol/l (IGF-I) (p 〈 0.02) respectively. After injection of GH, forearm uptake of 3-OH-butyrate was markedly elevated only in the subjects treated with IGF-I: from 44 ± 195 to 300 ± 370 after 20 min (p 〈 0.03) and to 287 ± 91 nmol · 100 ml–1· min–1after 120 min (p 〈 0.02). In conclusion, the lipolytic and ketogenic response to GH was grossly enhanced during IGF-I treatment, and utilization of ketone bodies by skeletal muscle was increased. [Diabetologia (1996) 39: 961–969]

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00403916

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