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Animal Models in Orthopaedic Research
Animal Models in Orthopaedic Research is a reference book of the major animal models used in the study of orthopaedic conditions and in the in vivo study of biomaterials. Use of animal models provides important knowledge about pathological conditions that can eventually lead to the development of more effective clinical treatment of diseases in bot
Handbook of Bacterial Adhesion
Research on bacterial adhesion and its significance is a major field involving many different aspects of nature and human life, such as marine science, soil and plant ecology, most importantly, the biomedical field. The adhesion ofbacteria to the food industry, and human tissue surfaces and implanted biomaterial surfaces is an important step in the patho genesis of infection. Handbook 0/ Bacterial Adhesion: Principles, Methods, and Applications is an outgrowth of the editors' own quest for information on laboratory techniques for studying bacte rial adhesion to biomaterials, bone, and other tissues and, more importantly, a response to significant needs in the research community. This book is...
Mechanical Testing of Bone and the Bone-Implant Interface
The mechanical properties of whole bones, bone tissue, and the bone-implant interfaces are as important as their morphological and structural aspects. Mechanical Testing of Bone and the Bone-Implant Interface helps you assess these properties by explaining how to do mechanical testing of bone and the bone-implant interface for bone-related research
Human Biomaterials Applications
Nineteen cutting-edge articles by leading practitioners review critical issues concerning biocompatible materials-polymers, metals, and other materials-used in or on the human body. Topics range from biopolymers used in controlled release drug delivery systems and synthetic burn-wound dressings to specific orthopedic devices. Each application-oriented article integrates basic science, engineering and medical experience with discussions of quality control. The contributors offer a wealth of valuable data and experience to materials scientists, research engineers, and academic physicians and surgeons. Their many examples provide rich insights into our experience today with a broad spectrum of modern biomaterials applications.
Microbial Growth in Biofilms
This volume and its companion, Volume 337, supplement Volume 310. These volumes provide a contemporary sourcebook for virtually any kind of experimental approach involving biofilms. They cover bioengineering, molecular, genetic, microscopic, chemical, and physical methods.
Pain Management in Small Animals
This title is directed primarily towards health care professionals outside of the United States. It explores the vital role the veterinary nurse plays in achieving pain-free recovery for sick or injured small animals and exotic pets. It provides in-depth coverage of both the physical and psychological effects of pain and focuses on the ethical obligation to maximize quality of life through pain management. This book also examines current evidence for effective pain management, including how research findings can be translated into everyday practice. - Emphasizes the nursing aspects of pain management in small animal practice. - Covers the entire range of analgesic drugs available, with details on mechanisms of action, contraindications, and complications. - Provides guidelines on how to accurately assess pain in animals and gauge the effectiveness of treatment. - Complex topics such as physiology, anatomy, and pharmacology are discussed in clear, accessible language with accompanying figures, tables, and charts that clarify key concepts.
Color Atlas of Tissue Response to Biomaterials
This atlas is a practical guide to the compatibility of biomaterials with different tissues in the human body. Beginning with the preparation of tissues with implants for microscopy, the following chapters describe implants in soft tissue, implants in bone, preclinical evaluation of biomaterials and medical devices, and retrieved clinical implants. In depth discussion on identifying cells in tissues and assessing responses to different biomaterials, assists with fundamental evaluation of whether a material is compatible with the tissues. The book is highly illustrated with photomicrographs and diagrams, providing pathologists with step by step sequences of events that occur in tissues following implantation of different types of material. Key points Practical guide to compatibility of biomaterials, implants and tissues in the body Covers implants in soft tissue and in bone Includes nearly 400 photomicrographs and illustrations
Repair and Regeneration of Ligaments, Tendons, and Joint Capsule
A comprehensive and authoritative review of the most important scientific and clinically relevant topics today in ligaments, tendons, and capsular biology, including their biomechanics and surgical reconstruction. The authors review the basic science of tendons in the hand and shoulder ligaments, the current clinical status of the shoulder and cruciate ligaments, and the latest advances in research on the healing of ligament and tendon to bone, artificial ligaments, and gene therapy. They also cover the major type 1 collagen soft tissues that are of particular interest to upper extremity surgeons and sports medicine specialists.
Medical Implications of Biofilms
Human tissues often support large, complex microbial communities growing as biofilms that can cause a variety of infections. As a result of an increased use of implanted medical devices, the incidence of these biofilm-associated diseases is increasing: the non-shedding surfaces of these devices provide ideal substrata for colonisation by biofilm-forming microbes. The consequences of this mode of growth are far-reaching. As microbes in biofilms exhibit increased tolerance towards antimicrobial agents and decreased susceptibility to host defence systems, biofilm-associated diseases are becoming increasingly difficult to treat. Not surprisingly, therefore, interest in biofilms has increased dramatically. The application of microscopic and molecular techniques has revolutionised our understanding of biofilm structure, composition, organisation, and activities, resulting in important advances in the prevention and treatment of biofilm-related diseases. The purpose of this book, which was first published in 2003, is to bring these advances to the attention of clinicians and medical researchers.
