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Growth Hormone Deficiency and Peak Bone Mass
Laboratory for Experimental Medicine and Endocrinology, Catholic University of Leuven, Gasthuisberg, Leuven, Belgium
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Roger Bouillon
Veröffentlicht/Copyright:
22. Juli 2014
ABSTRACT
In order to define the relationship between growth hormone (GH) and peak bone mass, and the importance of the role played by GH in reaching optimal peak bone mass, several questions, discussed in this article, have first to be answered. Although the answers to some of these questions are already becoming apparent, some await the findings of further research. It is doubtful whether the results of these studies, which by definition should be long-term because of the long lag between the end of linear growth and the attainment of peak bone mass, will soon be available. In the absence of evidence-based medicine one can, however, conclude that longterm GH replacement therapy for GH deficiency in adults has no deleterious effects on bone. Indeed, despite an increase in bone turnover and an increase in remodeling space, bone mineral density and bone mineral content have been shown to increase slowly over time and to the same degree in both controlled and uncontrolled studies.
Published Online: 2014-07-22
Published in Print: 2000-12-01
© 2014 by Walter de Gruyter Berlin/Boston
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Artikel in diesem Heft
- Titelei
- TABLE OF CONTENTS
- Foreword
- What Happens When Growth Hormone is Discontinued at Completion of Growth? Metabolic Aspects
- Growth Hormone Deficiency and Peak Bone Mass
- Optimal Strategy for Management of Pituitary Disease in the Growth Hormone-Deficient Teenager
- Ethical Dilemmas in Pediatric Endocrinology: Growth Hormone for Short Normal Children
- Evidence-Based Approach to Growth Hormone Replacement Therapy in Adults, with Special Emphasis on Body Composition
- Evidence-Based Growth Hormone Therapy Prediction Models
- New Paradigms for Growth Hormone Treatment in the 21st Century: Prediction Models
- Role of Insulin-like Growth Factor Monitoring in Optimizing Growth Hormone Therapy
- Knockout Mice Challenge Our Concepts of Glucose Homeostasis and the Pathogenesis of Diabetes Mellitus
- Type 2 Diabetes Mellitus in Children: Pathophysiology and Risk Factors
- Emergence of Type 2 Diabetes Mellitus in Children: Epidemiological Evidence
- Treatment of Type 2 Diabetes Mellitus in Children and Adolescents
- Diagnosis of Maturity-Onset Diabetes of the Young in the Pediatric Diabetes Clinic
- Thrifty Genotypes and Phenotypes in the Pathogenesis of Type 2 Diabetes Mellitus
- Estradiol: A Protective Factor in the Adult Brain
- Estrogen Treatment and Estrogen Suppression: Metabolic Effects in Adolescence
- Estrogen, Bone, Growth and Sex: A Sea Change in Conventional Wisdom
- Route-Dependent Endocrine and Metabolic Effects of Estrogen Replacement Therapy
- Telomerase and the Cellular Lifespan: Implications for the Aging Process
- Human Aging and Progeria
- A Role for the Somatotropic Axis in Neural Development, Injury and Disease
- Hypothalamic Growth Hormone-Insulin-like Growth Factor-I Axis across the Human Life Span
- The Lost Voice: A History of the Castrato
- SELECTED POSTER ABSTRACTS
- GROWTH. FETAL GROWTH. SGA
- SYNDROMES: TURNER. PRADER-WILLI. NOONAN. PHP. OTHERS
- GHD. HYPOPITUITARISM. KIGS
- METABOLIC. GENETIC. ADULT. ACROMEGALY
- GH. IGF. IGFBPs
- GROWTH IN SYSTEMIC DISEASE. CRI. RICKETS. STEROIDS
Artikel in diesem Heft
- Titelei
- TABLE OF CONTENTS
- Foreword
- What Happens When Growth Hormone is Discontinued at Completion of Growth? Metabolic Aspects
- Growth Hormone Deficiency and Peak Bone Mass
- Optimal Strategy for Management of Pituitary Disease in the Growth Hormone-Deficient Teenager
- Ethical Dilemmas in Pediatric Endocrinology: Growth Hormone for Short Normal Children
- Evidence-Based Approach to Growth Hormone Replacement Therapy in Adults, with Special Emphasis on Body Composition
- Evidence-Based Growth Hormone Therapy Prediction Models
- New Paradigms for Growth Hormone Treatment in the 21st Century: Prediction Models
- Role of Insulin-like Growth Factor Monitoring in Optimizing Growth Hormone Therapy
- Knockout Mice Challenge Our Concepts of Glucose Homeostasis and the Pathogenesis of Diabetes Mellitus
- Type 2 Diabetes Mellitus in Children: Pathophysiology and Risk Factors
- Emergence of Type 2 Diabetes Mellitus in Children: Epidemiological Evidence
- Treatment of Type 2 Diabetes Mellitus in Children and Adolescents
- Diagnosis of Maturity-Onset Diabetes of the Young in the Pediatric Diabetes Clinic
- Thrifty Genotypes and Phenotypes in the Pathogenesis of Type 2 Diabetes Mellitus
- Estradiol: A Protective Factor in the Adult Brain
- Estrogen Treatment and Estrogen Suppression: Metabolic Effects in Adolescence
- Estrogen, Bone, Growth and Sex: A Sea Change in Conventional Wisdom
- Route-Dependent Endocrine and Metabolic Effects of Estrogen Replacement Therapy
- Telomerase and the Cellular Lifespan: Implications for the Aging Process
- Human Aging and Progeria
- A Role for the Somatotropic Axis in Neural Development, Injury and Disease
- Hypothalamic Growth Hormone-Insulin-like Growth Factor-I Axis across the Human Life Span
- The Lost Voice: A History of the Castrato
- SELECTED POSTER ABSTRACTS
- GROWTH. FETAL GROWTH. SGA
- SYNDROMES: TURNER. PRADER-WILLI. NOONAN. PHP. OTHERS
- GHD. HYPOPITUITARISM. KIGS
- METABOLIC. GENETIC. ADULT. ACROMEGALY
- GH. IGF. IGFBPs
- GROWTH IN SYSTEMIC DISEASE. CRI. RICKETS. STEROIDS
