Computational Modeling For The Assessment Of The Biomechanical Properties Of The Healthy Diseased And Treated Spine

Computational Modeling for the Assessment of the Biomechanical Properties of the Healthy, Diseased and Treated Spine

Computational Biomechanics of Human Joints

Computational Biomechanics of Human Joints delves into the intricate details of each joint, exploring anatomical, mechanical, pathological, and therapeutic aspects. The book offers a comprehensive understanding of joint biomechanics by dedicating each chapter to specific joints, detailing their anatomical structure, biomechanical mechanisms, associated diseases, and pathologies. It also covers treatments, surgical interventions, and imaging-based modeling alongside numerical simulation techniques using the finite element method. This approach provides readers with an innovative perspective on the technological advancements in joint biomechanics. In addition to exploring joint-specific details, the book discusses the advantages and limitations of modern techniques.Finally, the book emphasizes the potential for these methods to improve clinical decision-making, optimize personalized treatments, and design medical devices. The integration of advanced modeling and simulation techniques enhances the understanding of the complex mechanisms of joints, contributing significantly to both academic research and practical clinical applications. - Helps readers gain a deep understanding of each joint's anatomy, mechanics, diseases, treatments, and surgical interventions - Provides comprehensive coverage of bone joint biomechanics, its individualized approach to each joint, and its integration of advanced computational methods - Incorporates imaging-based modeling and numerical simulation techniques, introducing readers to cutting-edge advancements in the field

Comprehensive Biomaterials

Comprehensive Biomaterials brings together the myriad facets of biomaterials into one, major series of six edited volumes that would cover the field of biomaterials in a major, extensive fashion: Volume 1: Metallic, Ceramic and Polymeric BiomaterialsVolume 2: Biologically Inspired and Biomolecular MaterialsVolume 3: Methods of AnalysisVolume 4: Biocompatibility, Surface Engineering, and Delivery Of Drugs, Genes and Other MoleculesVolume 5: Tissue and Organ EngineeringVolume 6: Biomaterials and Clinical Use Experts from around the world in hundreds of related biomaterials areas have contributed to this publication, resulting in a continuum of rich information appropriate for many audiences. The work addresses the current status of nearly all biomaterials in the field, their strengths and weaknesses, their future prospects, appropriate analytical methods and testing, device applications and performance, emerging candidate materials as competitors and disruptive technologies, and strategic insights for those entering and operational in diverse biomaterials applications, research and development, regulatory management, and commercial aspects. From the outset, the goal was to review materials in the context of medical devices and tissue properties, biocompatibility and surface analysis, tissue engineering and controlled release. It was also the intent both, to focus on material properties from the perspectives of therapeutic and diagnostic use, and to address questions relevant to state-of-the-art research endeavors. Reviews the current status of nearly all biomaterials in the field by analyzing their strengths and weaknesses, performance as well as future prospects Presents appropriate analytical methods and testing procedures in addition to potential device applications Provides strategic insights for those working on diverse application areas such as R&D, regulatory management, and commercial development