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Author:   Sabrina C. Agarwal ,  Samuel D. Stout
Publisher:   Springer Science+Business Media
Imprint:   Kluwer Academic/Plenum Publishers
Edition:   2003 ed.
Dimensions:   Width: 17.80cm , Height: 2.20cm , Length: 25.40cm
Weight:   0.772kg
ISBN:  

9780306477676

ISBN 10:   030647767
Pages:   240
Publication Date:   31 December 2003
Audience:   College/higher education ,  Professional and scholarly ,  Postgraduate, Research & Scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Awaiting stock  
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Table of Contents

I. Current Concepts of Bone Loss and Osteoporosis.- Concepts of Bone Remodeling: A Unified Spatial and Temporal Model with Physiologic and Pathophysiologic Implications.- 1. Introduction.- 2. The Purposes of Bone Remodeling.- 2.1. The Basic Multicellular Unit as the Instrument of Bone Remodeling.- 3. Disordered Remodeling and Age Related Bone Loss.- References.- 2. On Changing Views about Age-Related Bone Loss.- 1. Introduction.- 1.1 On the Two Paradigms.- 1.1.1 The 1960 Paradigm.- 1.1.2 The Utah Paradigm.- 2. Age-Related Bone Loss.- 3. A Proposed Synthesis.- 4. Conclusions.- References.- 3. The Role of Bone Quality on Bone Loss and Fragility.- 1. Introduction.- 2. Determination of Bone Quality.- 3. Aging Changes in the Skeleton.- 4. The Problem of Diagenesis.- 5. Changes in Bone Mineralization with Diseases and Treatments.- 6. What Determines Skeletal Fragility?.- 7. Conclusions.- References.- II. Population Approaches.- 4. Ethnic Differences in Bone Mass and Architecture.- 1. Introduction.- 1.1. Osteoporosis.- 1.2. Bone Densitometry and Assessment of Bone Architecture.- 1.3. Bone Density and Fracture Incidence.- 1.4. Use of “Race” and “Ethnicity” in Biomedical Literature on Osteoporosis.- 2. Bone Mass and Bone Density.- 2.1. Definitions of Bone Density.- 2.2. Ethnic Differences in Bone Density.- 3. Bone Quality and Bone Turnover.- 4. Factors Affecting Bone Mass and Bone Loss.- 4.1. Adjusting Bone Density for Body Size.- 4.2. Body Size and Composition, and Preservation of the Skeleton.- 4.3. Calcium Nutrition.- 4.4. Physical Activity.- 5. Bone Geometry.- 5.1. Hip Axis Length.- 5.2. Cross-Sectional Geometry.- 6. Fracture Incidence.- 7. Summary.- References.- 5. Bone Loss, Fracture Histories, and Body Composition Characteristics of Older Males.- 1. Background.- 1.1. Definition of Terms.- 1.2. Bone Loss in Other Primates.- 1.3. Population Differences.- 2. Risk Factors.- 2.1. Factors Influencing Bone Turnover.- 2.2. Peak Bone Mass.- 2.3. Endocrinological Factors.- 2.4. Vitamin D and Vitamin D Receptors.- 2.5. Body Composition and Mechanical Factors.- 3. The Sun City/Tucson Longitudinal Study.- 3.1. Objectives.- 3.2. Subjects.- 3.3. Methods.- 3.4. Results.- 4. Discussion.- 4.1. Observed Bone Loss.- 4.2. Changes in Body Composition.- 4.3. Nutrition, Bone Density, and Prostate Cancer.- 5. Summary and Conclusions.- References.- 6. The Histomorphometry of the Subadult Rib: Age-Associated Changes in Bone Mass and the Creation of Peak Bone Mass.- 1. Introduction.- 1.1. Intracortical Bone Remodeling in the Subadult Rib.- 1.2. Peak Bone Mass and Age-Associated Bone Loss.- 1.3. Factors Determining Peak Bone Mass.- 2. A Study of Subadult Rib Histomorphometry.- 2.1. Cross-Sectional Areas and Bone Mass.- 2.1. Intracortical Remodeling: Osteon Population Density and Osteon Size.- 3. Summary and Conclusions.- References.- III. Evolutionary Perspectives.- 7. An Evolutionary and Biocultural Approach to Understanding the Effects of Reproductive Factors on the Female Skeleton.- 1. Introduction.- 2. Pregnancy.- 3. Parity.- 4. Lactation.- 5. Animal Models.- 6. Evolutionary and Historical Evidence.- 7. Discussion.- 8. Conclusions.- References.- 8. Functional Adaptation and Fragility of the Skeleton.- 1. Introduction.- 2. Mechanisms of Functional Adaptation.- 2.1. Effector Cells.- 2.2. Sensor Cells.- 2.3. Strain and the Mechanostat.- 2.4. The Two Poles of Adaptation.- 2.4.1. Disuse: Subnormal Loading.- 2.4.2. Overuse: Supernormal Loading.- 3. Skeletal Maintenance.- 3.1. Fatigue Damage Activates Remodeling.- 3.2. Remodeling Reduces Skeletal Weight.- 3.3. Responsive vs. Permissive Remodeling.- 3.4. The Volume Effect on Strength and Fatigue Life.- 3.5. Somatic vs. Evolutionary Adaptation.- 4. Skeletal Fragility.- 4.1. The Mechanostat and Sexual Dimorphism.- 4.2. Mechanical Priorities in Male and Female Bones.- 4.3. Estrogen and the Mechanostat Set Point.- 4.4. Menopause, the Set Point, and Postmenopausal Fragility.- 5. Summary.- Acknowledgments.- References.- 9. Effects of Vitamin D on Bone and Natural Selection of Skin Color: How Much Vitamin D Nutrition are We Talking About?.- 1. Introduction.- 2. Skin and Vitamin D Uptake.- 2.1. Metabolism of Vitamin D.- 3. What is Lack of Vitamin D?.- 4. “Normal” Requirements for Calcium and Vitamin D.- 5. Fur-Bearing Primates Obtain Vitamin D by Mouth.- 6. Vitamin D Deficiency Affecting Genetic Selection for Lighter Skin Color.- 7. Nutritional Implications of Vitamin D in Human Biology.- References.- IV. Bone Loss and Osteoporosis in Past Populations.- 10. Techniques for the Investigation of Age-Related Bone Loss and Osteoporosis in Archaeological Bone.- 1. Introduction.- 1.1. Background.- 1.2. Problems with Diagenetic Change.- 2. Visual Examination of Complete Bones.- 3. Investigations of Cortical Bone.- 3.1. Metacarpal Radiogrammetry.- 3.2. Cortical Histomorphometry.- 4. Investigations of Trabecular Bone.- 4.1. Visual Examination of Trabecular Bone Structure.- 4.2. Singh Index.- 4.3. Image Analysis of Trabecular Architecture.- 4.4. Stereometry.- 4.5. Energy Dispersive Low Angle X-Ray Scattering (EDLAXS).- 5. Investigative Techniques that Measure Whole Bone.- 5.1. Optical/Photo Densitometry.- 5.2. Dual Energy X-Ray Absorptiometry (DEXA).- 6. Conclusions.- References.- 11. Differentail Diagnoses of Intravitam and Postmortem Bone Loss at the Micro-Level.- 1. Introduction.- 2. Methods and Techniques Used in Histological Research of Macerated Bone Specimens.- 3. Intravitam Changes.- 3.1. Primary Osteoporosis.- 3.1.1. Idiopathic Osteoporosis.- 3.1.2. Postmenopausal Osteoporosis.- 3.1.3. Senile Osteoporosis.- 3.2. Secondary Osteoporosis.- 3.2.1. Osteoporosis due to Inactivity and Immobilization.- 3.2.2. Bone Loss Caused by Inflammatory Processes.- 3.2.3. Bone Loss Caused by Tumorous Processes.- 4. Causes of Postmortem Bone Loss.- 4.1. Soil and water.- 4.2. Plant Roots.- 4.3. Fungi, Algae, Bacteria, and Protozoa.- 4.4. Arthropods and their larvae.- 5. Conclusions and Summary.- Acknowledgments.- References.- 12. Histomorphology, Geometry, and Mechanical Loading in Past Populations.- 1. Introduction.- 2. Mechanobiology Methods for Preserved Skeletal Remains.- 2.1. Interpreting Preserved Evidence of Mechanical Loading History from Bone Geometry.- 2.2. Bone Microstructure and Mechanical Loading History.- 3. Application of Geometric and Histologie Biomechanical Approaches to Past Populations: The Palomans.- 3.1. Skeletal Sample.- 3.2. Methods and Findings.- 3.3. Changes through Time at Paloma.- 4. Conclusions.- References.- 13. Bone Remodeling and Age-Associated Bone Loss in the Past: A Histomorphometric Analysis of the Imperial Roman Skeletal Population of Isola Sacra.- 1. Introduction.- 2. Principles and Methodology of Bone Histomorphometry.- 2.1. Cortical Bone Sample Preparation.- 2.2. An Algorithm for Estimating Bone Remodeling rates in Ancient Skeletal Samples.- 2.3. Diagenesis.- 2.4. Age-at-Death.- 3. Previous Applications of Histomorphology in Past Populations.- 3.1. African Populations.- 3.2. European Populations.- 3.3. Native American Populations.- 3.4. Other Populations.- 4. Present Study: An Example in Histomorphology and Bioarchaeology.- 4.1. Materials.- 4.2. Methods.- 4.3. Results.- 4.3.1. Cortical Area in Isola Sacra.- 4.3.2. Bone Remodeling in Isola Sacra.- 4.3.3. Comparison of Isola Sacra with Modern samples.- 4.4. Age Associated Bone Loss in the Imperial Romans.- 5. Future Directions.- Acknowledgments.- References.

Reviews

From the reviews: This book aims to provide a physical anthropological perspective on osteoporosis by bringing together contributions from researchers with medical and anthropological backgrounds. ... it forms a user-friendly introduction to the bone biology involved and is a useful gateway to the vast medical literature on osteoporosis. It is also a valuable introduction to some of the methodology for studying osteoporosis in ancient remains ... . there is much in this book that is fresh and challenging and it fills a gap in the palaeopathology literature. (Simon Mays, International Journal of Osteoarchaeology, Vol. 15 (3), 2005)

From the reviews: <p> This book aims to provide a physical anthropological perspective on osteoporosis by bringing together contributions from researchers with medical and anthropological backgrounds. a ] it forms a user-friendly introduction to the bone biology involved and is a useful gateway to the vast medical literature on osteoporosis. It is also a valuable introduction to some of the methodology for studying osteoporosis in ancient remains a ] . there is much in this book that is fresh and challenging and it fills a gap in the palaeopathology literature. (Simon Mays, International Journal of Osteoarchaeology, Vol. 15 (3), 2005)

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