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01-03-2018 | Original Article

Glucose homeostasis in GHD children during long-term replacement therapy: a case−control study

Published in: Endocrine | Issue 3/2018

Abstract

Purpose

To evaluate glucose homeostasis in children with growth hormone (GH) deficiency (GHD) receiving long-term replacement therapy.

Methods

We evaluated glucose, insulin, HOmeostasis Model Assessment (HOMA-IR), and HbA1c in 100 GHD children at diagnosis and during 5 years of therapy. One hundred healthy children comparable to patients were evaluated at baseline and after 1 and 5 years.

Results

No difference was detected at baseline between GHD patients and controls in glucose (79.58 ± 9.96 vs. 77.18 ± 8.20 mg/dl), insulin (4.50 ± 3.24 vs. 4.30 ± 2.60 µU/ml), HbA1c (5.20 ± 0.31 vs. 5.25 ± 0.33%) levels, and HOMA-IR (0.93 ± 0.72 vs. 0.86 ± 0.61). One year of GH was associated with a significant increase in insulin (7.21 ± 4.84, p < 0.001) and HOMA-IR (1.32 ± 0.98, p < 0.001) in GHD children, which became different from controls (p < 0.001 and p = 0.004). These parameters did not change further during the following years of treatment in GHD subjects. In contrast, controls did not show significant changes in insulin (4.40 ± 2.60) and HOMA-IR (0.82 ± 0.60) during the first year; however, at the fifth year of the study a significant increase in insulin (6.50 ± 3.50, p = 0.004) and HOMA-IR (1.29 ± 0.54, p < 0.001) was documented, making these parameters comparable between patients and controls.

Conclusions

Our results suggest that growth hormone (GH) treatment is not associated with significant impairment of insulin sensitivity in GHD children. The slight impairment observed in GHD adolescents after long-term GH is comparable to that physiologically occurring in healthy pubertal subjects.

N. Møller, J.O. Jørgensen, Effects of growth hormone on glucose, lipid, and protein metabolism in human subjects. Endocr. Rev. 30, 152–177 (2009)CrossRef

M. Salerno, V. Esposito, V. Farina, G. Radetti, A. Umbaldo, D. Capalbo, L. Spinelli, S. Muzzica, G. Lombardi, A. Colao, Improvement of cardiac performance and cardiovascular risk factors in children with GH deficiency after two years of GH replacement therapy: an observational, open, prospective, case-control study. J. Clin. Endocrinol. Metab. 91, 1288–1295 (2006)CrossRef

D. Capalbo, A. Lo Vecchio, V. Farina, L. Spinelli, A. Palladino, C. Tiano, T. Lettiero, G. Lombardi, A. Colao, M. Salerno, Subtle alterations of cardiac performance in children with growth hormone deficiency: results of a two-year prospective, case-control study. J. Clin. Endocrinol. Metab. 94, 3347–3355 (2009)CrossRef

D. Capalbo, G. Mattace Raso, A. Esposito, R. Di Mase, F. Barbieri, R. Meli, D. Bruzzese, M. Salerno, Cluster of cardiometabolic risk factors in children with GH deficiency: a prospective, case-control study. Clin. Endocrinol. 80, 856–862 (2014)CrossRef

J. Rothermel, T. Reinehr, Metabolic alterations in paediatric GH deficiency. Best Pract. Res. Clin. Endocrinol. Metab. 30, 757–770 (2016)CrossRef

A. Luger, A.F. Mattsson, M. Koltowska-Häggström, M. Thunander, M. Góth, J. Verhelst, R. Abs, Incidence of diabetes mellitus and evolution of glucose parameters in growth hormone-deficient subjects during growth hormone replacement therapy: a long-term observational study. Diabetes Care 35, 57–62 (2012)CrossRef

M. Segerlantz, M. Bramnert, P. Manhem, E. Laurila, L.C. Groop, Inhibition of lipolysis during acute GH exposure increases insulin sensitivity in previously untreated GH-deficient adults. Eur. J. Endocrinol. 149, 511–519 (2003)CrossRef

F.P. Dominici, D. Turyn, Growth hormone-induced alterations in the insulin-signaling system. Exp. Biol. Med. 227, 149–157 (2002)CrossRef

K.C. Yuen, D.B. Dunger, Therapeutic aspects of growth hormone and insulin-like growth factor-I treatment on visceral fat and insulin sensitivity in adults. Diabetes Obes. Metab. 9, 11–22 (2007)CrossRef

10.

A. Ciresi, M.C. Amato, A. Criscimanna, A. Mattina, C. Vetro, A. Galluzzo, G. D’Acquisto, C. Giordano, Metabolic parameters and adipokine profile during GH replacement therapy in children with GH deficiency. Eur. J. Endocrinol. 156, 353–360 (2007)CrossRef

11.

J.P. López-Siguero, L.F. López-Canti, R. Espino, E. Caro, J.M. Fernández-García, A. Gutiérrez-Macías, J.M. Rial, J.L. Lechuga, F. Macías, M.J. Martínez-Aedo, S. Rico, I. Rodríguez, J. Guillén, F.J. Arroyo, S. Bernal, R. Espigares, M. Núñez, A. Escribano, J.L. Barrionuevo, J. Gentil, V. Barrios, A. Fernández-Nistal, G.A. Martos-Moreno, V. Martínez, J. Argente, Effect of recombinant growth hormone on leptin, adiponectin, resistin, interleukin-6, tumor necrosis factor-α and ghrelin levels in growth hormone-deficient children. J. Endocrinol. Invest. 34, 300–306 (2011)CrossRef

12.

A. Ciresi, M.C. Amato, C. Giordano, Reduction in insulin sensitivity and inadequate β-cell capacity to counteract the increase in insulin resistance in children with idiopathic growth hormone deficiency during 12 months of growth hormone treatment. J. Endocrinol. Invest. 38, 351–359 (2015)CrossRef

13.

A. Ciresi, F. Cicciò, S. Radellini, C. Giordano, Utility of C-peptide for a reliable estimate of insulin secretion in children with growth hormone deficiency. Growth Horm. IGF Res. 29, 71–77 (2016)CrossRef

14.

F. Baronio, L. Mazzanti, Y. Girtler, F. Tamburrino, A. Fazzi, F. Lupi, S. Longhi, G. Radetti, The influence of growth hormone treatment on glucose homeostasis in growth hormone-deficient children: a six-year follow-up study. Horm. Res. Paediatr. 86, 196–200 (2016)CrossRef

15.

G. Radetti, B. Pasquino, E. Gottardi, I.B. Contadin, F. Rigon, G. Aimaretti, Insulin sensitivity in growth hormone-deficient children: influence of replacement treatment. Clin. Endocrinol. 61, 473–477 (2004)CrossRef

16.

W.S. Cutfield, P. Wilton, H. Bennmarker, K. Albertsson-Wikland, P. Chatelain, M.B. Ranke, D.A. Price, Incidence of diabetes mellitus and impaired glucose tolerance in children and adolescents receiving growth-hormone treatment. Lancet 355, 610–613 (2000)CrossRef

17.

C.J. Child, A.G. Zimmermann, R.S. Scott, G.B. Cutler Jr, T. Battelino, W.F. Blum, GeNeSIS international advisory board: prevalence and incidence of diabetes mellitus in GH-treated children and adolescents: analysis from the GeNeSIS observational research program. J. Clin. Endocrinol. Metab. 96, E1025–E1034 (2011)CrossRef

18.

A. Poidvin, A. Weill, E. Ecosse, J. Coste, J.C. Carel, Risk of diabetes treated in early adulthood following growth hormone treatment for short stature in childhood. J. Clin. Endocrinol. Metab. 102, 1291–1298 (2017)CrossRef

19.

Growth Hormone Research Society, Consensus guidelines for the diagnosis and treatment of growth hormone (GH) deficiency in childhood and adolescence: summary statement of the GH Research Society. GH Research Society. J. Clin. Endocrinol. Metab. 85, 3990–3993 (2000)

20.

D.R. Matthews, J.P. Hosker, A.S. Rudenski, B.A. Naylor, D.F. Treacher, R.C. Turner, Homeostasis model assessment: insulin resistance and beta-cell function from fasting plasma glucose and insulin concentrations in man. Diabetologia 28, 412–419 (1985)CrossRef

21.

E. Cacciari, S. Milani, A. Balsamo, E. Spada, G. Bona, L. Cavallo, F. Cerutti, L. Gargantini, N. Greggio, G. Tonini, A. Cicognani, Italian cross-sectional growth charts for height, weight and BMI (2 to 20 yr). J. Endocrinol. Invest. 29, 581–593 (2006)CrossRef

22.

W.T. Friedewald, R.I. Levy, D.S. Fredrickson, Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clin. Chem. 18, 499–502 (1972)PubMed

23.

W.P. Castelli, Lipids, risk factors and ischaemic heart disease. Atherosclerosis 124, S1–S9 (1996)CrossRef

24.

M.I. Goran, B.A. Gower, Longitudinal study on pubertal insulin resistance. Diabetes 50, 2444–2450 (2001)CrossRef

25.

T.S. Hannon, J. Janosky, S.A. Arslanian, Longitudinal study of physiologic insulin resistance and metabolic changes of puberty. Pediatr. Res. 60, 759–763 (2006)CrossRef

26.

B. Singh, A. Saxena, Surrogate markers of insulin resistance: A review. World J. Diabetes 1, 36–47 (2010)CrossRef

27.

M. Matsuda, R.A. DeFronzo, Insulin sensitivity indices obtained from oral glucose tolerance testing: comparison with the euglycemic insulin clamp. Diabetes Care 22, 1462–1470 (1999)CrossRef

28.

E. Bonora, G. Targher, M. Alberiche, R.C. Bonadonna, F. Saggiani, M.B. Zenere, T. Monauni, M. Muggeo, Homeostasis model assessment closely mirrors the glucose clamp technique in the assessment of insulin sensitivity: studies in subjects with various degrees of glucose tolerance and insulin sensitivity. Diabetes Care 23, 57–63 (2000)CrossRef

29.

R. Muniyappa, S. Lee, H. Chen, M.J. Quon, Current approaches for assessing insulin sensitivity and resistance in vivo: advantages, limitations, and appropriate usage. Am. J. Physiol. Endocrinol. Metab. 294, E15–E26 (2008)CrossRef

Title: Glucose homeostasis in GHD children during long-term replacement therapy: a case−control study
Publication date: 01-03-2018
Published in: Endocrine / Issue 3/2018
Print ISSN: 1355-008X
Electronic ISSN: 1559-0100
DOI: https://doi.org/10.1007/s12020-017-1408-0

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Results

Conclusions

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