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S. Beshyah, Christopher Freemantie, Manjit Shahl, V. Anyaoku, S. Merson, Sean Lynch, E. Skinner, P. Sharp, R. Foale, D. Johnston (1995)
Replacement treatment with biosynthetic human growth hormone in growth hormone‐deficient hypopituitary adults *Clinical Endocrinology, 42
T. Rosén, L. Wíren, L. Wilhelmsen, I. Wiklund, B. Bengtsson (1994)
Decreased psychological well‐being in adult patients with growth hormone deficiencyClinical Endocrinology, 40
A. Binnerts, G. Swart, J. Wilson, N. Hoogerbrugge, Hulbert Pois, J. Birkenhager, S. Lamberts (1992)
The effect of growth hormone administration in growth hormone deficient adults on bone, protein, carbohydrate and lipid homeostasis, as well as on body compositionClinical Endocrinology, 37
S. Holmes, R. Whitehouse, R. Swindell, G. Economou, J. Adams, S. Shalet (1995)
Effect of growth hormone replacement on bone mass in adults with adult onset growth hormone deficiencyClinical Endocrinology, 42
A. Prader, R. Largo, L. Molinari, C. Issler (1989)
Physical growth of Swiss children from birth to 20 years of age. First Zurich longitudinal study of growth and development.Helvetica paediatrica acta. Supplementum, 52
H. Boer, G. Blok, H. Voerman, P. Vries, E. Veen (1992)
Body composition in adult growth hormone-deficient men, assessed by anthropometry and bioimpedance analysis.The Journal of clinical endocrinology and metabolism, 75 3
M. Vandeweghe, P. Taelman, J. Kaufman (1993)
Short and long‐term effects of growth hormone treatment on bone turnover and bone mineral content in adult growth hormone‐deficient males *Clinical Endocrinology, 39
O. Rutherford, S. Beshyah, J. Schott, Y. Watkins, D. Johnston (1995)
Contractile properties of the quadriceps muscle in growth hormone-deficient hypopituitary adults.Clinical science, 88 1
H. Boer, G. Blok, H. Voerman, M. Phillips, J. Schouten (1994)
Serum lipid levels in growth hormone-deficient men.Metabolism: clinical and experimental, 43 2
T. Rosén, S. Edén, G. Larson, L. Wilhelmsen, B. Bengtsson (1993)
Cardiovascular risk factors in adult patients with growth hormone deficiency.Acta endocrinologica, 129 3
O. Rutherford, D. Jones, J. Round, C. Buchanan, M. Preece (1991)
Changes in skeletal muscle and body composition after discontinuation of growth hormone treatment in growth hormone deficient young adults *Clinical Endocrinology, 34
R. Cuneo, F. Salomon, C. Wiles, P. Sönksen (1990)
Skeletal muscle performance in adults with growth hormone deficiency.Hormone research, 33 Suppl 4
S. Beshyah, Christopher Freemantle, Elizabeth Thomas, Olga Rutherford§, B. Page, M. Murphy, D. Johnston (1995)
Abnormal body composition and reduced bone mass in growth hormone deficient hypopituitary adults *Clinical Endocrinology, 42
A. Binnerts, P. Deurenberg, G. Swart, J. Wilson, S. Lamberts (1992)
Body composition in growth hormone-deficient adults.The American journal of clinical nutrition, 55 5
M. Colle, J. Auzerie (1993)
Discontinuation of growth hormone therapy in growth-hormone-deficient patients: assessment of body fat mass using bioelectrical impedance.Hormone research, 39 5-6
B. Stabler, J. Turner, S. Girdler, K. Light, L. Underwood (1992)
Reactivity to stress and psychological adjustment in adults with pituitary insufficiencyClinical Endocrinology, 36
Roberto Valcavi, O. Gaddi, M. Zini, M. Iavicoli, U. Mellino, I. Portioli (1995)
Cardiac performance and mass in adults with hypopituitarism: effects of one year of growth hormone treatment.The Journal of clinical endocrinology and metabolism, 80 2
S. Holmes, S. Shalet (1995)
Which adults develop side‐effects of growth hormone replacement?Clinical Endocrinology, 43
G. Amato, C. Carella, S. Fazio, G. Montagna, A. Cittadini, D. Sabatini, C. Marciano-Mone, L. Saccá, A. Bellastella (1993)
Body composition, bone metabolism, and heart structure and function in growth hormone (GH)-deficient adults before and after GH replacement therapy at low doses.The Journal of clinical endocrinology and metabolism, 77 6
R. Cuneo, F. Salomon, G. Watts, R. Hesp, P. Sönksen (1993)
Growth hormone treatment improves serum lipids and lipoproteins in adults with growth hormone deficiency.Metabolism: clinical and experimental, 42 12
H. Whitehead, C. Boreham, E. Mcllrath, B. Sheridan, L. Kennedy, A. Atkinson, D. Madden (1992)
Growth hormone treatment of adults withgrowth hormone deficiency: results of a 13‐month placebo controlled cross‐over studyClinical Endocrinology, 36
N. Valk, A. Lely, W. Herder, J. Lindemans, S. Lamberts (1994)
The effects of human growth hormone (GH) administration in GH-deficient adults: a 20-day metabolic ward study.The Journal of clinical endocrinology and metabolism, 79 4
J. Brämswig, H. Schlösser, K. Kiese (1995)
Final height in children with growth hormone deficiency.Hormone research, 43 4
P. Deurenberg, K. Kooy, R. Leenen, J. Weststrate, J. Seidell (1991)
Sex and age specific prediction formulas for estimating body composition from bioelectrical impedance: a cross-validation study.International journal of obesity, 15 1
A. Weissberger, R. Cuneo, F. Salomon, G. Mcgauley, C. Lowy, P. Sönksen (1993)
Growth Hormone Treatment in Adults with Growth Hormone Deficiency
Ralf Nass, Rudolf Huber, Volker Klaus, Otto MtJLLER, Jochen Schopohl, Christian Strasburger (1995)
Effect of growth hormone (hGH) replacement therapy on physical work capacity and cardiac and pulmonary function in patients with hGH deficiency acquired in adulthood.The Journal of clinical endocrinology and metabolism, 80 2
W. Blum, K. Albertsson-Wikland, S. Rosberg, M. Ranke (1993)
Serum levels of insulin-like growth factor I (IGF-I) and IGF binding protein 3 reflect spontaneous growth hormone secretion.The Journal of clinical endocrinology and metabolism, 76 6
AbstractThe onset of adult GH deficiency may be during either adulthood (AO) or childhood (CO), but potential differences have not previously been examined. In this study the baseline and GH therapy (12.5 μg/kg per day) data from CO (n = 74; mean age 29 yr) and AO (n = 99; mean age 44 yr) GH- deficient adult patients have been compared. The first 6 months comprised randomized, double-blind treatment with GH or placebo, then all patients were GH-treated for a further 12 months.At baseline the height, body weight, body mass index, lean body mass, and waist/hip ratio of AO patients were significantly (P < 0.001) greater than in CO patients. Serum insulin-like growth factor-I (IGF-I) levels were below normal but were lower in CO than AO patients (P < 0.001), and the correlation with IGF binding protein-3 was stronger in CO than in AO patients. Osteocalcin concentration in CO patients was above the normal range and significantly greater than in AO patients. Both groups had significant psychosocial distress, but the deviation from normality was greater in AO patients. Throughout GH therapy there was a significant increase in lean body mass and significant decrease in percent body fat and sum of skinfolds in each group. Waist/hip ratio was decreased by long-term therapy in AO but not CO patients. Total and low density lipoprotein cholesterol levels were decreased from baseline at 6 months in AO but not CO patients and high density lipoprotein cholesterol was increased in both groups throughout therapy. IGF-I and IGF binding protein-3 were increased into the normal range by GH therapy in both groups. Mean osteocalcin level in AO patients was increased at 6 months with no further change with GH therapy, whereas in CO patients there was a steep increase up to 12 months but then a sharp decrease. Nottingham Health Profile scores showed significant improvements in physical mobility and energy at 18 months of therapy in AO patients but no consistent effects in CO patients. GH-induced side effects were mainly reported by AO patients; very few CO patients reported treatment-emergent adverse events.These results demonstrate significant differences in clinical and biochemical presentation and responses to therapy of the adult GH deficiency syndrome. This is consistent with the existence of two entities, developmental (CO) and metabolic (AO), and the different functions of GH at different periods of life.
Journal of Clinical Endocrinology and Metabolism – Oxford University Press
Published: Jan 1, 1997
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