معرفی کتاب «The hip resurfacing handbook : a practical guide for the use and management of modern hip resurfacings» نوشتهٔ edited by Koen De Smet, Pat Campbell, Catherine Van Der Straeten، منتشرشده توسط نشر Woodhead Publishing Limited در سال 2013. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
Hip resurfacing arthroplasty (HRA) using metal-on-metal bearings is an established but specialised technique in joint surgery. Based on the experience of leading experts in the field, The hip resurfacing handbook provides a comprehensive reference for all aspects of this important procedure. The first part of the book reviews and compares all the major hip resurfacing prostheses, their key design features, relevant surgical techniques and clinical results. Part two discusses clinical follow-up of the hip resurfacing patient, including pre- and post-operative examination, acoustic phenomena and rehabilitation. It also covers the use of techniques such as radiography and metal ion measurement, as well as bone scans, ultrasound, CT, MRI, PET and DEXA, to evaluate hip resurfacings. Part three reviews best practice in surgical technique, including the modified posterior and anterior approaches, as well as instrumentation, anaesthesia and revision surgery. Based on extensive retrieval studies, Part four includes examples of the main failure modes in HRA. The final part of the book includes patients' own experiences, a comparison of HRA with total hip arthroplasty (THA), regulatory issues and relevant web sites. Comprehensive in its scope and authoritative in its coverage, The hip resurfacing handbook is a standard work for orthopaedic surgeons and all those involved in HRA. A standard work for orthopaedic surgeons and all those involved in HRAReviews and compares all the major hip resurfacing prostheses, their key design features, relevant surgical techniques and clinical resultsClinical follow-up of the patient is discussed. Read more...
This second edition of Joint Replacement Technology provides a thoroughly updated review of recent developments in joint replacement technology. Joint replacement is a standard treatment for joint degradation and has improved the quality of life of millions of patients. Collaboration between clinicians and researchers is critical to its continued success and to meet the rising expectations of patients and surgeons.
Part one introduces the advances in joint replacement technology, tribological considerations and experiments, and immune and regenerative responses to joint replacements. Part two covers the materials and techniques used in joint replacement. The advantages and disadvantages of different metals are explained here, as well as the use of ceramics. This section also addresses challenges in joint bearing surfaces, design, and cementless fixation techniques. Biological and mechanical issues are considered in part three, including healing responses to implants and biological causes of prosthetic joint failure, and a new chapter on imaging of joint prostheses. Each chapter in part four describes the clinical challenges of replacing specific joints, with specific focus on hip, knee, intervertebral disc joint, shoulder arthroplasty, elbow arthroplasty, and pyrocarbon small joint arthroplasty.
Thanks to its widespread collaboration and international contributors, Joint Replacement Technology is useful for materials scientists and engineers in both academia and biomedical industry. Chemists, clinicians, and other researchers in this area will also find it invaluable.
- This second edition provides an updated comprehensive review of recent developments in joint replacement technology
- Provides coverage for the most pertinent materials science and engineering issues in depth
- Reviews the specific joints, biological and mechanical issues and fixation techniques
Computational Modelling of Biomechanics and Biotribology in the Musculoskeletal System reviews how a wide range of materials are modelled and how this modelling is applied. Computational modelling is increasingly important in the design and manufacture of biomedical materials, as it makes it possible to predict certain implant-tissue reactions, degradation, and wear, and allows more accurate tailoring of materials' properties for the in vivo environment.
Part I introduces generic modelling of biomechanics and biotribology with a chapter on the fundamentals of computational modelling of biomechanics in the musculoskeletal system, and a further chapter on finite element modelling in the musculoskeletal system. Chapters in Part II focus on computational modelling of musculoskeletal cells and tissues, including cell mechanics, soft tissues and ligaments, muscle biomechanics, articular cartilage, bone and bone remodelling, and fracture processes in bones. Part III highlights computational modelling of orthopedic biomaterials and interfaces, including fatigue of bone cement, fracture processes in orthopedic implants, and cementless cup fixation in total hip arthroplasty (THA). Finally, chapters in Part IV discuss applications of computational modelling for joint replacements and tissue scaffolds, specifically hip implants, knee implants, and spinal implants; and computer aided design and finite element modelling of bone tissue scaffolds.
This book is a comprehensive resource for professionals in the biomedical market, materials scientists and mechanical engineers, and those in academia.
- Covers generic modelling of cells and tissues; modelling of biomaterials and interfaces; biomechanics and biotribology
- Discusses applications of modelling for joint replacements and applications of computational modelling in tissue engineering
This second edition of Joint Replacement Technology provides a thoroughly updated review of recent developments in joint replacement technology. Joint replacement is a standard treatment for joint degradation and has improved the quality of life of millions of patients. Collaboration between clinicians and researchers is critical to its continued success and to meet the rising expectations of patients and surgeons. Part one introduces the advances in joint replacement technology, tribological considerations and experiments, and immune and regenerative responses to joint replacements. Part two covers the materials and techniques used in joint replacement. The advantages and disadvantages of different metals are explained here, as well as the use of ceramics. This section also addresses challenges in joint bearing surfaces, design, and cementless fixation techniques. Biological and mechanical issues are considered in part three, including healing responses to implants and biological causes of prosthetic joint failure, and a new chapter on imaging of joint prostheses. Each chapter in part four describes the clinical challenges of replacing specific joints, with specific focus on hip, knee, intervertebral disc joint, shoulder arthroplasty, elbow arthroplasty, and pyrocarbon small joint arthroplasty. Thanks to its widespread collaboration and international contributors, Joint Replacement Technology is useful for materials scientists and engineers in both academia and biomedical industry. Chemists, clinicians, and other researchers in this area will also find it invaluable. This second edition provides an updated comprehensive review of recent developments in joint replacement technology Provides coverage for the most pertinent materials science and engineering issues in depth Reviews the specific joints, biological and mechanical issues and fixation techniques Hip resurfacing arthroplasty (HRA) using metal-on-metal bearings is an established but specialised technique in joint surgery. Based on the experience of leading experts in the field, The hip resurfacing handbook provides a comprehensive reference for all aspects of this important procedure.
The first part of the book reviews and compares all the major hip resurfacing prostheses, their key design features, relevant surgical techniques and clinical results. Part two discusses clinical follow-up of the hip resurfacing patient, including pre- and post-operative examination, acoustic phenomena and rehabilitation. It also covers the use of techniques such as radiography and metal ion measurement, as well as bone scans, ultrasound, CT, MRI, PET and DEXA, to evaluate hip resurfacings. Part three reviews best practice in surgical technique, including the modified posterior and anterior approaches, as well as instrumentation, anaesthesia and revision surgery. Based on extensive retrieval studies, Part four includes examples of the main failure modes in HRA. The final part of the book includes patients’ own experiences, a comparison of HRA with total hip arthroplasty (THA), regulatory issues and relevant web sites.
Comprehensive in its scope and authoritative in its coverage, The hip resurfacing handbook is a standard work for orthopaedic surgeons and all those involved in HRA.
- A standard work for orthopaedic surgeons and all those involved in HRA
- Reviews and compares all the major hip resurfacing prostheses, their key design features, relevant surgical techniques and clinical results
- Clinical follow-up of the patient is discussed
Hip resurfacing arthroplasty (HRA) using metal-on-metal bearings is an established but specialised technique in joint surgery. Based on the experience of leading experts in the field, The hip resurfacing handbook provides a comprehensive reference for all aspects of this important procedure. The first part of the book reviews and compares all the major hip resurfacing prostheses, their key design features, relevant surgical techniques and clinical results. Part two discusses clinical follow-up of the hip resurfacing patient, including pre- and post-operative examination, acoustic phenomena and rehabilitation. It also covers the use of techniques such as radiography and metal ion measurement, as well as bone scans, ultrasound, CT, MRI, PET and DEXA, to evaluate hip resurfacings. Part three reviews best practice in surgical technique, including the modified posterior and anterior approaches, as well as instrumentation, anaesthesia and revision surgery. Based on extensive retrieval studies, Part four includes examples of the main failure modes in HRA. The final part of the book includes patients' own experiences, a comparison of HRA with total hip arthroplasty (THA), regulatory issues and relevant web sites. Comprehensive in its scope and authoritative in its coverage, The hip resurfacing handbook is a standard work for orthopaedic surgeons and all those involved in HRA. A standard work for orthopaedic surgeons and all those involved in HRA Reviews and compares all the major hip resurfacing prostheses, their key design features, relevant surgical techniques and clinical results Clinical follow-up of the patient is discussed Computational modelling is increasingly important in the design and manufacture of biomedical materials, as it makes it possible to predict certain implant-tissue reactions, degradation, and wear, and allows more accurate tailoring of materials' properties for the in vivo environment. Computational Modelling of Biomechanics and Biotribology in the Musculoskeletal System reviews how a wide range of materials are modelled and how this modelling is applied. Part I introduces generic modelling of biomechanics and biotribology with a chapter on the fundamentals of computational modelling of biomechanics in the musculoskeletal system, and a further chapter on finite element modelling in the musculoskeletal system. Chapters in Part II focus on computational modelling of musculoskeletal cells and tissues, including cell mechanics, soft tissues and ligaments, muscle biomechanics, articular cartilage, bone and bone remodelling, and fracture processes in bones. Part III highlights computational modelling of orthopedic biomaterials and interfaces, including fatigue of bone cement, fracture processes in orthopedic implants, and cementless cup fixation in total hip arthroplasty (THA). Finally, chapters in Part IV discuss applications of computational modelling for joint replacements and tissue scaffolds, specifically hip implants, knee implants, and spinal implants; and computer aided design and finite element modelling of bone tissue scaffolds
Total hip arthroplasty, the most commonly performed orthopedic procedure, is used to replace or reconstruct the hip with an artificial joint. Perspectives in Total Hip Arthroplasty outlines developments in technologies and biomaterials used for this procedure, with a focus on the tribological interactions of the materials used.
Part one outlines the history of total hip arthroplasty and goes on to explore advances in techniques and biomaterials. Part two focuses on the tribology of materials used to perform this procedure, explaining the impact of wear on the load-bearing surface, a major cause of failure in hip prostheses. Chapters review a range of materials, including modern biomaterials, hybrid materials, metal, ceramic, and polyethylene. The book also discusses the tribological interactions of these materials when used in total hip arthroplasty.
Perspectives in Total Hip Arthroplasty is a key resource for clinicians, researchers, and academics interested in the tribology of total hip arthroplasty, as well as materials researchers, engineers, and academics concerned with the tribology of biomaterials.
- Covers techniques from innovative surgeons and designs from multinational manufacturers, as well as information on improvements in technologies and biomaterials
- Discusses the tribology of all the major materials used in total hip arthroplasty
Total hip arthroplasty, the most commonly performed orthopedic procedure, is used to replace or reconstruct the hip with an artificial joint. Perspectives in Total Hip Arthroplasty outlines developments in technologies and biomaterials used for this procedure, with a focus on the tribological interactions of the materials used. Part one outlines the history of total hip arthroplasty and goes on to explore advances in techniques and biomaterials. Part two focuses on the tribology of materials used to perform this procedure, explaining the impact of wear on the load-bearing surface, a major cause of failure in hip prostheses. Chapters review a range of materials, including modern biomaterials, hybrid materials, metal, ceramic, and polyethylene. The book also discusses the tribological interactions of these materials when used in total hip arthroplasty. Perspectives in Total Hip Arthroplasty is a key resource for clinicians, researchers, and academics interested in the tribology of total hip arthroplasty, as well as materials researchers, engineers, and academics concerned with the tribology of biomaterials. Covers techniques from innovative surgeons and designs from multinational manufacturers, as well as information on improvements in technologies and biomaterials Discusses the tribology of all the major materials used in total hip arthroplasty Content: Koen De Smet is one of the world??????s leading hip surgeons, having performed more than 3500 hip resurfacings. His annual Advanced Hip Resurfacing Course is widely regarded as a key source of best practice for HRA. Pat Campbell is Director of the Implant Retrieval Laboratory and a Professor in the Department of Orthopaedic Surgery at The University of California Los Angeles (UCLA). She is a leading expert on implant retrieval and analysis. Catherine Van Der Straeten is a Rheumatologist and an Independent Consultant in Clinical Research with extensive experience in designing and performing hip resurfacing follow-up studies, including ion level monitoring. Abstract: Surface arthroplasty (surface replacement) of the hip with metal-on-metal bearings is one of the fastest growing areas within the field of joint surgery. This book includes chapters that provide readers with information on a range of hip resurfacing designs. Read more... Annotation Modelling is an important aspect of the design process for biomaterials and medical devices. By effectively modelling biomaterials and implants before their implantation, it is now possible to predict certain implant-tissue reactions, degradation and wear. Consequently computational modelling is becoming increasingly important in the design and manufacture of biomedical materials, allowing scientists to more accurately tailor their materials¿ properties for the in vivo environment. The book begins with an introduction to the field and the software and technologies. Part one provides readers with an introduction to the field. Part two covers generic modelling of cells and tissues whilst chapters in part three discuss modelling of biomaterials and interfaces. Part four reviews biomechanics and biotribology with chapters in part five discussing applications of modelling for joint replacements and tissue engineering Joint replacement is a standard treatment for joint degradation and has improved the quality of life of millions of patients. For its continued success and to meet the rising expectations of patients and surgeons, it relies on collaboration between clinicians and researchers. This second edition provides a comprehensive review of the scientific and engineering developments in joint replacement technology. Part one introduces the advances in joint replacement technology, tribological considerations and experiments, and immune and regenerative responses to joint replacements. Part two Total hip arthroplasty, the most commonly performed orthopaedic procedure, is used to replace or reconstruct the hip with an artificial joint. Perspectives in Total Hip Arthroplasty outlines developments in technologies and biomaterials used for this procedure, with a focus on the tribological interactions of the materials used. Part one outlines the history of total hip arthroplasty and goes on to explore advances in techniques and biomaterials. Part two focuses on the tribology of materials used to perform this procedure, providing an explanation of the impact of wear on th Part 1 provides readers with an introduction to the field. Part 2 covers generic modelling of cells and tissues whilst chapters in part three discuss modelling of biomaterials and interfaces. Part 4 reviews biomechanics and biotribology with chapters in part 5 discussing applications of modelling for joint replacements and tissue engineering. Chapters in the first part of the book will cover techniques from innovative surgeons, designs from multinational manufacturers as well as information on improvements in technologies and biomaterials. The second part of the book will discuss the tribology of all the major materials used in total hip arthroplasty. Chapters in part one provide readers with information on a wide range of hip resurfacing designs. Part two focuses on clinical follow-up to hip resurfacing. Part three discusses a variety of operative techniques whilst the final section will provide readers with case studies and conclusions.