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Prosthetic biomechanics is an interdisciplinary field of engineering, medicine, and biology, focused on enhancing people’s lifestyles. In the past 20 years, the field of prosthetic biomechanics and its potential have grown due to the support of advances in engineering technologies. Prosthetic Biomechanics in Engineering is about the recent advances in prosthetic engineering research. The scope of the book is focused on the design, development, and evaluation of a prosthetic systems that are being used in biomechanical applications. The book covers advanced materials, conceptual design, classification, ergonomics design applications, brain computer interface (BCI) system, motion analysis, postural stand stability, upper and lower limb prosthetics, types of suspension systems for prosthetics, Fiber Bragg Grating-based techniques, and pressure on the residual limb and the socket. The early chapters effectively describe new sensors for in-socket systems, new pylon material, and advanced gait analysis. Further chapters discuss advanced techniques for the design and development of prosthetics based on clinical and emergency uses. The information provided in this book is intended for researchers and investigators to encourage further advances in the field of prosthetics research, and for the development of rehabilitation equipment for the improvement of human health, and it: Presents recent advances in prosthetic biomechanics engineering research Discusses the design and development of limb prosthetic systems Explores advanced concepts of the prosthetic sockets Describes gait analysis of prosthetics and orthotics Dr Noor Azuan Abu Osman is a practicing engineer and Professor of Biomechanics with Department of Biomedical Engineering, Faculty of Engineering, University of Malaya, Malaysia.
From the wooden teeth of George Washington to the Bly prosthesis, popular in the 1860s and boasting easy uniform motions of the limb, to today's lifelike approximations, prosthetic devices reveal the extent to which the evolution and design of technologies of the body are intertwined with both the practical and subjective needs of human beings. The peculiar history of prosthetic devices sheds light on the relationship between technological change and the civilizing process of modernity, and analyzes the concrete materials of prosthetics which carry with them ideologies of body, ideals, body politics, and culture. Simultaneously critiquing, historicizing, and theorizing prosthetics, Artificial Parts, Practical Lives lays out a balanced and complex picture of its subject, neither vilifying nor celebrating the merger of flesh and machine.
Powered Upper Limb Prostheses deals with the concept, implementation and clinical application of utilizing inherent electrical signals within normally innervated residual muscles under voluntary control of an upper limb amputee. This amplifies these signals by battery-powered electrical means to make a terminal device, the prosthetic hand, move to perform intended function. The reader is introduced to various facets of upper limb amputations and their clinical management in both children and adults. The authors from Canada, USA and Great Britain are well known practicioners, academics and researchers in the field. The book has over 130 illustrations and contains an extensive bibliography.
Control Aspects of Prosthetics and Orthotics covers the proceedings of the International Federation of Automatic Control (IFAC) Symposium that tackles issues relating to the control systems of prosthetics and orthotics device. The book organizes topics according to the sessions of the symposium. Session 1 deals with the functional muscle and nerve simulation, while Session 2 discusses the man-machine mechanical and information interface. The third session covers sensory replacement and artificial organs, while the fourth session tackles instrumentation, medical devices, and clinical procedures. The last session discusses robotics and mechanics. The text will be of great interest to physicians, physical therapists, orthotists, and prosthetists, whose line of work involves prosthetics and orthotics systems.
In medicine, a prosthesis is an artificial device extension that replaces a missing body part. It is part of the field of biomechatronics, the science of using mechanical devices with human muscle, skeleton, and nervous systems to assist or enhance motor control lost by trauma, disease, or defect. Common prosthetic devices used today include hearing aids, artificial eyes, palatal obturator, gastric bands, and dentures. This book presents current research in the design, types and complications of prosthetics. Topics discussed include total hip replacement with a short metaphysical-fitting anatomic cementless femoral component in young and elderly patients; complications of total knee arthroplasty; dental prostheses and implants; prostheses for middle ear ossicular chain reconstruction; bioprostheses in hernia repair and shoulder replacement in osteoarthritis.
This book focuses on the advances in transtibial prosthetic technology and targets research in the evolution of the powered prosthesis such as the BiOM, which was derived from considerable research and development at the Massachusetts Institute of Technology. The concept of the book spans the historical evolution of prosthetic applications from passive to new and futuristic robotic prosthetic technologies. The author describes the reasons for amputation, surgical procedures, and an historical perspective of the prosthesis for the lower limb. He also addresses the phases and sub-phases of gait and compensatory mechanisms arising for a transtibial prosthesis and links the compensatory mechanisms to long-term morbidities. The general technologies for gait analysis central to prosthetic design and the inherent biomechanics foundations for analysis are also explored. The book reports on recent-past to current-term applications with passive elastic prostheses. The core of the book deals with futuristic robotic prostheses including their function and major subsystems, such as actuator technology, state machine control, and machine learning applications. Finally, the envisioned future trends in the prosthetic technology space are presented.
Prosthesis, Orthopaedics, Prosthetic devices, Classification systems, Orthopaedic equipment, Medical equipment, Artificial limbs, Legs, Feet (anatomy), Knees, Hips, Limbs
This book consists of two parts: Prosthetics and Orthotics. Over the years there has been rapid development in prostheses and orthoses. Advancement of technology, significant progress in computer components and robotics, and the development of new materials have enabled many people in need to return to useful and practical life. This book provides information for effective clinical decision-making for those working with people who need medical supportive devices. Over two parts, chapters in this volume examine construction methods, applications, and effects of prosthetic and orthotic devices.