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Author: Sarah Kathleen Easley
Publisher:
ISBN:
Category :
Languages : en
Pages : 210
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Book Description
Anti-fracture therapies for the treatment of osteoporosis have been shown clinically to reduce the incidence of fracture; however, standard clinical measurements of bone density cannot sufficiently explain these large reductions. Therefore, the overall goal of this research is to develop a better understanding of the mechanisms through which anti-fracture therapies improve bone strength -- a critical determinant of fracture risk -- which should lead to improved assessment of treatment efficacy. Combining the latest advances in micro-computed tomography and high-resolution micro-CT-based finite element modeling, we used repeated measures and parameter variations to isolate specific biomechanical effects of various bone characteristics that can be altered by disease and treatment. Specifically, we found that simulated microcavities in trabecular bone from a wide range of bone volume fraction and microarchitecture reduced the strength and altered the relationship between strength and bone volume fraction. While this effect was greater in low-density bone and when the microcavities were targeted to regions of high tissue strain, an appreciable biomechanical effect persisted for all types of bone. Since previous work with antiresorptive-treated canine bone did not find such an effect, questions remain regarding accurate representation of the morphology and micromechanics of actual resorption-induced cavities. Despite these uncertainties, our results provide new insight into the clinical relevance of stress risers caused by resorption cavities, suggesting that antiresorptive therapies may be most effective via mitigation of stress risers in a subset of patients with low bone volume fraction and high bone turnover. Studying vertebrae from treated rats revealed that any treatment-induced changes in intra-specimen variations in tissue mineralization, as detected by quantitative micro-CT, had a negligible biomechanical effect at the whole bone level and in isolated trabecular bone. Intra-specimen variations in tissue mineralization did have a role in general biomechanical behavior, but this role was remarkably uniform across the four different treatment groups: sham control, ovariectomized (OVX), OVX+PTH, and OVX+raloxifene. Finite element results showed that biomechanical treatment effects were dominated by treatment-induced changes in geometry and microarchitecture. This research also produced an efficient pre-clinical framework for characterizing bone quality which should provide considerable insight into the mechanisms of biomechanical effects in a broad range of bone research applications, including aging, diseases, and pharmaceutical and genetic therapy. The approach takes advantage of the hierarchical structure of bone by evaluating the most biomechanically relevant characteristics at each physical scale to isolate the source of bone quality effects and prescribing subsequent analysis only when such effects are found. Using this framework, we found that neither ovariectomy nor PTH treatment had a net effect on bone quality of rat vertebrae during compressive loading suggesting that the observed changes in vertebral strength were primarily due to changes in bone quantity. In closure, this dissertation research has increased knowledge regarding the mechanisms through which osteoporosis therapies improve bone strength without appreciably increasing bone mass. Further, it provides new methods for pre-clinical assessment of treatment efficacy. This dissertation also outlines areas of research to further advance our understanding of the effects of disease and drug therapies on bone biomechanics in human bone.
Author: Sarah Kathleen Easley
Publisher:
ISBN:
Category :
Languages : en
Pages : 210
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Book Description
Anti-fracture therapies for the treatment of osteoporosis have been shown clinically to reduce the incidence of fracture; however, standard clinical measurements of bone density cannot sufficiently explain these large reductions. Therefore, the overall goal of this research is to develop a better understanding of the mechanisms through which anti-fracture therapies improve bone strength -- a critical determinant of fracture risk -- which should lead to improved assessment of treatment efficacy. Combining the latest advances in micro-computed tomography and high-resolution micro-CT-based finite element modeling, we used repeated measures and parameter variations to isolate specific biomechanical effects of various bone characteristics that can be altered by disease and treatment. Specifically, we found that simulated microcavities in trabecular bone from a wide range of bone volume fraction and microarchitecture reduced the strength and altered the relationship between strength and bone volume fraction. While this effect was greater in low-density bone and when the microcavities were targeted to regions of high tissue strain, an appreciable biomechanical effect persisted for all types of bone. Since previous work with antiresorptive-treated canine bone did not find such an effect, questions remain regarding accurate representation of the morphology and micromechanics of actual resorption-induced cavities. Despite these uncertainties, our results provide new insight into the clinical relevance of stress risers caused by resorption cavities, suggesting that antiresorptive therapies may be most effective via mitigation of stress risers in a subset of patients with low bone volume fraction and high bone turnover. Studying vertebrae from treated rats revealed that any treatment-induced changes in intra-specimen variations in tissue mineralization, as detected by quantitative micro-CT, had a negligible biomechanical effect at the whole bone level and in isolated trabecular bone. Intra-specimen variations in tissue mineralization did have a role in general biomechanical behavior, but this role was remarkably uniform across the four different treatment groups: sham control, ovariectomized (OVX), OVX+PTH, and OVX+raloxifene. Finite element results showed that biomechanical treatment effects were dominated by treatment-induced changes in geometry and microarchitecture. This research also produced an efficient pre-clinical framework for characterizing bone quality which should provide considerable insight into the mechanisms of biomechanical effects in a broad range of bone research applications, including aging, diseases, and pharmaceutical and genetic therapy. The approach takes advantage of the hierarchical structure of bone by evaluating the most biomechanically relevant characteristics at each physical scale to isolate the source of bone quality effects and prescribing subsequent analysis only when such effects are found. Using this framework, we found that neither ovariectomy nor PTH treatment had a net effect on bone quality of rat vertebrae during compressive loading suggesting that the observed changes in vertebral strength were primarily due to changes in bone quantity. In closure, this dissertation research has increased knowledge regarding the mechanisms through which osteoporosis therapies improve bone strength without appreciably increasing bone mass. Further, it provides new methods for pre-clinical assessment of treatment efficacy. This dissertation also outlines areas of research to further advance our understanding of the effects of disease and drug therapies on bone biomechanics in human bone.
Author: United States Public Health Service
Publisher:
ISBN: 9781410219275
Category : Health & Fitness
Languages : en
Pages : 0
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Book Description
This first-ever Surgeon General's Report on bone health and osteoporosis illustrates the large burden that bone disease places on our Nation and its citizens. Like other chronic diseases that disproportionately affect the elderly, the prevalence of bone disease and fractures is projected to increase markedly as the population ages. If these predictions come true, bone disease and fractures will have a tremendous negative impact on the future well-being of Americans. But as this report makes clear, they need not come true: by working together we can change the picture of aging in America. Osteoporosis, fractures, and other chronic diseases no longer should be thought of as an inevitable part of growing old. By focusing on prevention and lifestyle changes, including physical activity and nutrition, as well as early diagnosis and appropriate treatment, Americans can avoid much of the damaging impact of bone disease and other chronic diseases. This Surgeon General's Report brings together for the first time the scientific evidence related to the prevention, assessment, diagnosis, and treatment of bone disease. More importantly, it provides a framework for moving forward. The report will be another effective tool in educating Americans about how they can promote bone health throughout their lives. This first-ever Surgeon General's Report on bone health and osteoporosis provides much needed information on bone health, an often overlooked aspect of physical health. This report follows in the tradition of previous Surgeon Generals' reports by identifying the relevant scientific data, rigorously evaluating and summarizing the evidence, and determining conclusions.
Author: Mehrsheed Sinaki
Publisher: Springer
ISBN: 3319540165
Category : Medical
Languages : en
Pages : 252
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Book Description
This practical guide presents the most up-to-date information on the application of non-pharmacological and physical therapeutic measures, either used independently or in combination with pharmacotherapy, for the management of osteoporosis. Pharmacotherapy remains the primary treatment for osteoporosis, but to improve the biomechanical competence of bone and improve quality of life, there needs to be more comprehensive management approach involving non-pharmacological methods. The book opens with a discussion of the diagnosis, pathophysiology, complications and consequences of osteoporosis. Exercise, nutrition, orthotics, and other rehabilitation measures such as whole body vibration and electrical muscle stimulation, each described in details in chapters of their own, have had a beneficial impact on fall and fracture prevention as well as recovery post-fracture. In addition, the application of acupuncture for pain management and movement-based mind-body therapies like tai chi and the Feldenkrais method are explored. Providing a description of independent and adjuvant techniques and practices for treatment and improving quality of life, Non-Pharmacological Management of Osteoporosis is an excellent resource for endocrinologists, bone specialists, physical therapists, occupational therapists and all clinical practitioners and staff working with osteoporosis patients.
Author: Abdelwahed Barkaoui
Publisher: BoD – Books on Demand
ISBN: 1837680140
Category : Technology & Engineering
Languages : en
Pages : 157
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Book Description
Dive into the intricate realm of osteoporosis through the lens of biomechanics with Biomechanical Insights into Osteoporosis. This pioneering volume offers a comprehensive exploration of this debilitating condition, providing an in-depth understanding of its biomechanical foundations and implications. Osteoporosis, characterized by reduced bone mineral density and heightened susceptibility to fractures, stands as a global health challenge. This book brings together leading experts in the field, who rigorously analyze the multifaceted aspects of osteoporosis, offering invaluable knowledge for researchers, clinicians, and students alike. Key Highlights: •Biomechanical Foundations: Gain profound insights into the biomechanical basis of bone fractures and fracture osteosynthesis in small animals. Explore the fundamental principles that shape our understanding of osteoporotic biomechanics. •Non-Glucocorticoid Drug-Induced Osteoporosis: Investigate the mechanisms, risk factors, and therapeutic approaches for osteoporosis induced by medications other than glucocorticoids. •Vascular Remodeling and Bone Destruction: Discover the common pathogenetic links between vascular remodeling and bone tissue destruction in postmenopausal women with arterial hypertension. This holistic perspective illuminates bone health dynamics. •Genetic Targets and Future Directions: Explore promising genetic targets that have the potential to revolutionize osteoporosis treatment. Get a glimpse into the future of research and treatment strategies. •Biomarkers and Metabolism: Delve into the latest research progress surrounding bone mineral density and bone metabolism biomarkers, offering valuable insights into diagnostics and monitoring. •Impact of Diseases and Medical Treatments: Understand the intricate interplay between diseases and medical treatments on bone mineral density. Gain a comprehensive understanding of how various factors influence skeletal health. This book represents a significant milestone in deciphering the complexities of osteoporosis from a biomechanical perspective. Join us in this scientific journey to explore the fascinating facets of osteoporosis. Biomechanical Insights into Osteoporosis is an essential resource for anyone seeking a deeper understanding of this critical health issue and the biomechanical aspects that underlie it.
Author: James F. Whitfield
Publisher: CRC Press
ISBN: 1482234033
Category : Medical
Languages : en
Pages : 281
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Book Description
Osteoporosis, a growing epidemic among women in North America, Europe, and Japan, is a painful, costly disease that has presented a treatment challenge to healthcare professionals. Until recently, therapies have focused on agents that slow bone resorption, and have had only limited success at increasing bone mass.
Author: Matthew J. Silva
Publisher: Springer Science & Business Media
ISBN: 3642180531
Category : Technology & Engineering
Languages : en
Pages : 261
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Book Description
The focus of this book is on mechanical aspects of skeletal fragility related to aging and osteoporosis. Topics include: Age-related changes in trabecular structure and strength; age-related changes in cortical material properties; age-related changes in whole-bone structure; predicting bone strength and fracture risk using image-based methods and finite element analysis; animal models of osteoporosis and aging; age-related changes in skeletal mechano responsiveness; exercise and physical interventions for osteoporosis.
Author: Eric S. Orwoll
Publisher: Academic Press
ISBN: 0080923461
Category : Medical
Languages : en
Pages : 764
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Book Description
Since the publication of the first edition, the U.S. Surgeon General released the first-ever report on bone health and osteoporosis in October 2004. This report focuses even more attention on the devastating impact osteoporosis has on millions of lives. According to the National Osteoporosis Foundation, 2 million American men have osteoporosis, and another 12 million are at risk for this disease. Yet despite the large number of men affected, the lack of awareness by doctors and their patients puts men at a higher risk that the condition may go undiagnosed and untreated. It is estimated that one-fifth to one-third of all hip fractures occur in men. This second edition brings on board John Bilezikian and Dirk Vanderschueren as editors with Eric Orwoll. The table of contents is more than doubling with 58 planned chapters. The format is larger – 8.5 x 11. This edition of Osteoporosis in Men brings together even more eminent investigators and clinicians to interpret developments in this growing field, and describe state-of-the-art research as well as practical approaches to diagnosis, prevention and therapy. Brings together more eminent investigators and clinicians to interpret developments in this growing field Describes state-of-the-art research as well as practical approaches to diagnosis, prevention and therapy There is no book on the market that covers osteoporosis in men as comprehensively as this book
Author: Paula H. Stern
Publisher: Springer Nature
ISBN: 3030573788
Category : Medical
Languages : en
Pages : 518
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Book Description
This volume is designed to provide an understanding of current and potential therapies for osteoporosis. The opening chapter introduces the cells of bone and their interactions. Several following chapters describe factors affecting bone including systemic hormones with significant effects on bone, and local mediators including growth factors, prostaglandins, cytokines and chemokines. Topics that have commanded particular attention recently are calcium, FGF-23, nervous system bone interactions. Drugs that cause bone loss provide important information on mechanism as well as therapeutic considerations. An overview of the genetics of bone disorders and a discussion of the pathophysiology of osteoporosis establish the clinical context. The final chapters discuss current and potential osteoporosis treatments.
Author: Hideaki E. Takahashi
Publisher: Springer Nature
ISBN: 9811656134
Category : Medical
Languages : en
Pages : 569
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Book Description
This edited book describes what fragile bone is, how the condition is assessed, and how it can be treated. It is intended for multi-professional trainees and practitioners in health and social care fields who care for and treat the elderly. Chapters within the book provide the latest advances in cell and molecular biology, morphology, radiology, and the biomechanics of bone in health and disease. The basic concept of “Remodeling” and “Modeling” is described for better understanding of the mechanisms of osteoporosis. Methods of identifying and assessing osteoporosis are described, as are risk factors for bone fracture and non-unions. Furthermore, the effects of various drugs used to treat osteoporosis at both material and structural levels of bone and their cost effectiveness are described. Operative treatments for fracture that maintain or improve the quality of life of patients are included Treatment of Osteoporotic Fracture and Systemic Skeletal Disorders attempts to provide a holistic and translational view of the pathogenesis and treatment of osteoporosis and some other musculoskeletal diseases, with an overview of treatment modalities in various clinical settings.
Author: Anne-Marie Bagnall
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
