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Biomechanics of the Spine encompasses the basics of spine biomechanics, spinal tissues, spinal disorders and treatment methods. Organized into four parts, the first chapters explore the functional anatomy of the spine, with special emphasis on aspects which are biomechanically relevant and quite often neglected in clinical literature. The second part describes the mechanics of the individual spinal tissues, along with commonly used testing set-ups and the constitutive models used to represent them in mathematical studies. The third part covers in detail the current methods which are used in spine research: experimental testing, numerical simulation and in vivo studies (imaging and motion analysis). The last part covers the biomechanical aspects of spinal pathologies and their surgical treatment. This valuable reference is ideal for bioengineers who are involved in spine biomechanics, and spinal surgeons who are looking to broaden their biomechanical knowledge base. The contributors to this book are from the leading institutions in the world that are researching spine biomechanics. - Includes broad coverage of spine disorders and surgery with a biomechanical focus - Summarizes state-of-the-art and cutting-edge research in the field of spine biomechanics - Discusses a variety of methods, including In vivo and In vitro testing, and finite element and musculoskeletal modeling
Combining orthopedic surgery with biomechanical engineering, this reference and teaching text reviews and analyzes the clinical and scientific data on the mechanics of the human spine. This edition adds new material on vibration (i.e. road driving) and its effect on the spine; anatomy and kinematics
Biomechanics of Spine Stabilization bridges the gap that has existed between the physics of biomechanical research and the clinical arena. The book helps surgeons to plan treatments for the injured spine based on sound biomechanical principles -- principles that will influence the surgeon's choice for the surgical approach, type of fusion, and type of instrumentation. Biomechanics of Spine Stabilization begins with the essentials, proceeds gradually toward the development of an understanding of biomechanical principles, and finally, provides a basis for clinical decision-making. These features make it a cover-to-cover "must-read" for anyone who is involved with the care of a patient with an unstable spine.
Spinal disorders are among the most common medical conditions with significant impact on health related quality of life, use of health care resources and socio-economic costs. This is an easily readable teaching tool focusing on fundamentals and basic principles and provides a homogeneous syllabus with a consistent didactic strategy. The chosen didactic concept highlights and repeats core messages throughout the chapters. This textbook, with its appealing layout, will inspire and stimulate the reader for the study of spinal disorders.
This book provides the solid foundation of knowledge therapists need to safely and accurately treat musculoskeletal disorders of the spine. It presents a comprehensive view of applied functional anatomy and biomechanics of the whole spine, examining normal and abnormal function of the spine, the response of tissues to injury, and the effects of age-related changes. Thoroughly referenced and extensively illustrated with over 200 original, high-quality diagrams, it serves as an excellent resource for clinical decision making. The 2nd edition explores several areas in greater depth - including the sacroiliac joint, thoracic biomechanics, muscles - and reviews recent papers and the scientific evidence of functional anatomy. Accessory and physiological spinal movements are thoroughly described. Palpation is covered in detail. Numerous guidelines for safe practice are provided. A valuable, comprehensive chapter covers posture, lifting, and the prevention of injury. Coverage of applied anatomy and biomechanics is written by therapists for therapists. New theories on thoracic biomechanics are presented, rarely covered by other anatomy books. All topics have been updated to reflect recent scientific evidence, enabling the reader to more effectively formulate and manage treatment plans. New illustrations to complement the text and improve readers' understanding of the material. A one-of-a-kind chapter covering the sacroiliac joint has been comprehensively revised. Expanded material is provided on the autonomic nervous system, thoracic spine biomechanics, and the biomechanics of the lower limb as it relates to the spine. New sections address adverse neural tension, cervical discs, proprioception and muscle imbalance, and mechanics of the jaw and upper cervical spine. An update on vertebral artery and blood supply presents the latest knowledge on the subject.
Authored by experts of international renown, the new edition of The Biomechanics of Back Pain forms a bridge between the latest research and the effective clinical management of patients with back problems. Now published for the first time in full colour, the volume presents a unique synthesis of the latest research findings and explains its recent changes in emphasis - from trying to understand and reverse age-related spinal degeneration to addressing the soft tissue causes of pain. New chapters are devoted to Sensorimotor Control, and Cervical Spine Anatomy and Biomechanics, while a bonus website contains useful PowerPoint presentations, which include seminars entitled Back Pain and Forces on the Spine as well as an overview of the Psychosocial Flags Framework. Clinically orientated and highly practical throughout, The Biomechanics of Back Pain has become the standard platform by which readers keep abreast of research and developments in the field and is essential for all clinicians involved in the care and treatment of patients with back pain, as well as for those studying its causes and methods of prevention. - Established authoritative text for clinicians, lecturers, researchers and those working in the medico-legal arena - Emphasizes the latest perspectives in research and shows how it is now leading to advances in clinical methodology - Provides an overview of the best original research – including more than 350 new references – to provide researchers with the latest and most important information relating to back pain - Contains over 150 full-colour line artworks and more than 60 photographs - Additional chapters devoted to Sensorimotor Control, and Cervical Spine Anatomy and Biomechanics - Includes more than 350 new references - Now published in full colour with improved page design and navigation - Bonus website containing useful PowerPoint presentations, which include seminars entitled Back Pain and Forces on the Spine as well as an overview of the Psychosocial Flags Framework
Every year workers' low-back, hand, and arm problems lead to time away from jobs and reduce the nation's economic productivity. The connection of these problems to workplace activities-from carrying boxes to lifting patients to pounding computer keyboards-is the subject of major disagreements among workers, employers, advocacy groups, and researchers. Musculoskeletal Disorders and the Workplace examines the scientific basis for connecting musculoskeletal disorders with the workplace, considering people, job tasks, and work environments. A multidisciplinary panel draws conclusions about the likelihood of causal links and the effectiveness of various intervention strategies. The panel also offers recommendations for what actions can be considered on the basis of current information and for closing information gaps. This book presents the latest information on the prevalence, incidence, and costs of musculoskeletal disorders and identifies factors that influence injury reporting. It reviews the broad scope of evidence: epidemiological studies of physical and psychosocial variables, basic biology, biomechanics, and physical and behavioral responses to stress. Given the magnitude of the problem-approximately 1 million people miss some work each year-and the current trends in workplace practices, this volume will be a must for advocates for workplace health, policy makers, employers, employees, medical professionals, engineers, lawyers, and labor officials.
With the constant evolution of implant technology, and improvement in the production of allograft and bone substitutes, the armamentarium of the orthopaedic surgeon has significantly expanded. In particular, the recent involvement of nanotechnologies opens up the possibilities of new approaches in the interactive interfaces of implants. With many important developments occurring since the first edition of this well-received book, this updated resource informs orthopaedic practitioners on a wide range of biomechanical advances in one complete reference guide. Biomechanics and Biomaterials in Orthopedics, 2nd edition compiles the most prominent work in the discipline to offer newly-qualified orthopedic surgeons a summary of the fundamental skills that they will need to apply in their day-to-day work, while also updating the knowledge of experienced surgeons. This book covers both basic concepts concerning biomaterials and biomechanics as well as their clinical application and the experience from everyday practical use. This book will be of great value to specialists in orthopedics and traumatology, while also providing an important basis for graduate and postgraduate learning.
Experimental Methods in Orthopaedic Biomechanics is the first book in the field that focuses on the practicalities of performing a large variety of in-vitro laboratory experiments. Explanations are thorough, informative, and feature standard lab equipment to enable biomedical engineers to advance from a 'trial and error' approach to an efficient system recommended by experienced leaders. This is an ideal tool for biomedical engineers or biomechanics professors in their teaching, as well as for those studying and carrying out lab assignments and projects in the field. The experienced authors have established a standard that researchers can test against in order to explain the strengths and weaknesses of testing approaches. - Provides step-by-step guidance to help with in-vitro experiments in orthopaedic biomechanics - Presents a DIY manual that is fully equipped with illustrations, practical tips, quiz questions, and much more - Includes input from field experts who combine their real-world experience to provide invaluable insights for all those in the field
The vertebral spine is a key element of the human anatomy. Its main role is to protect the spinal cord and the main blood vessels. The axial skeleton, with its muscles and joints, provides stability for the attachment of the head, tail and limbs and, at the same time, enables the mobility required for breathing and for locomotion. Despite its great importance, the vertebral spine is often over looked by researchers because: a) vertebrae are fragile in nature, which makes their fossilization a rare event; b) they are metameric (seriated and repeated elements) that make their anatomical determination and, thus, their subsequent study difficult; and c) the plethora of bones and joints involved in every movement or function of the axial skeleton makes the reconstruction of posture, breathing mechanics and locomotion extremely difficult. It is well established that the spine has changed dramatically during human evolution. Spinal curvatures, spinal load transmission, and thoracic shape of bipedal humans are derived among hominoids. Yet, there are many debates as to how and when these changes occurred and to their phylogenetic, functional, and pathological implications. In recent years, renewed interest arose in the axial skeleton. New and exciting finds, mostly from Europe and Africa, as well as new methods for reconstructing the spine, have been introduced to the research community. New methodologies such as Finite Element Analysis, trabecular bone analysis, Geometric Morphometric analysis, and gait analysis have been applied to the spines of primates and humans. These provide a new and refreshing look into the evolution of the spine. Advanced biomechanical research regarding posture, range of motion, stability, and attenuation of the human spine has interesting evolutionary implications. Until now, no book that summarizes the updated research and knowledge regarding spinal evolution in hominoids has been available. The present book explores both these new methodologies and new data, including recent fossil, morphological, biomechanical, and theoretical advances regarding vertebral column evolution. In order to cover all of that data, we divide the book into four parts: 1) the spine of hominoids; 2) the vertebral spine of extinct hominins; 3) ontogeny, biomechanics and pathology of the human spine; and 4) new methodologies of spinal research. These parts complement each other and provide a wide and comprehensive examination of spinal evolution.