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Foreword from a Clinical Biomechanist, Applied Physiologist and Prosthetist teaching graduate students in Prosthetics & Orthotics. While there are many books on Biomechanics, arguably the quintessential science of limb prosthetics, none addresses the fundamental principles in sufficient detail and depth to be practically useful to the prosthetist, rehabilitation specialist or researcher. Dr. Pitkin’s monograph is an exemplary collection of theoretical principles from his research and o- ers, presented in its clinical and applied biomechanics form. The textbook provides an excellent overview of the many facets of lower limb prosthetic design and engineering for the ardent clinician researcher and student. The book delves into many of the basic concepts that are required knowledge for the clinician and the scientist to have as the foundation for their work. Dr. Pitkin has an e- quent manner in which he reflects on the history and literature to tell the storied evolution of prosthetic design . He takes the reader on a journey to consider his theories, which have substantive foundations to contemplate. By the end of chapter one, we have the basic h- tory and an appreciation for the rationale behind the “rolling joint ankle” with evidence to support his theoretical views.
This volume is a comprehensive overview of lower-limb prosthetics and orthotics, covering normal and pathological gait, lower-limb biomechanics, clinical applications, as well as prosthetic and orthotic designs and components. Clinical management is incorporated throughout the text, including basic surgical concepts, postoperative management, preprosthetic care, and training in the use of devices. Additionally, this text incorporates unique features relevant to physicians such as prescription writing and prosthetic and orthotic construction and modification, as well as the latest research regarding energy consumption and long-term utilization of protheses.
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.
Lower-Limb Prosthetics and Orthotics: Clinical Conceptsis a comprehensive overview of lower-limb prosthetics and orthotics, covering normal and pathological gait, lower-limb biomechanics, clinical applications, as well as prosthetic and orthotic designs and components. Joan Edelstein and Alex Moroz have writtenLower-Limb Prosthetics and Orthotics with the clinician’s perspective in mind. Clinical management is incorporated throughout the text, including basic surgical concepts, postoperative management, preprosthetic care, and training in the use of devices. Additionally, this text incorporates unique features relevant to physicians such as prescription writing and prosthetic and orthotic construction and modification, as well as, the latest research regarding energy consumption and long-term utilization of prostheses. Chapters Include: Orthotics in neuromuscular diseases Orthotics in pediatrics Functional expectations Gait and activities training Transtibial and transfemoral prostheses and components Transtibial and transfemoral biomechanics, evaluation, and gait analysis Disarticulations and Bilateral Amputations With over 150 line drawings and photographs to supplement the text, Lower-Limb Prosthetics and Orthotics: Clinical Concepts is ideal for clinicians in the fields of physical medicine and rehabilitation, orthopedics, vascular surgery, physical therapy and occupational therapy.
This textbook provides a thorough introduction and overview of the design and engineering of state-of-the-art prosthetics and assistive technologies. Innovations in prosthetics are increasingly made by cross-disciplinary thinking, and the author introduces the application of biomedical, mechanical, electrical, computer, and materials engineering principles to the design of artificial limbs. Coverage includes the fundamentals of biomechanics, biomechanical modeling and measurements, the basics of anatomy and physiology of limb defects, and the historical development of prosthetic design. This book stimulates the innovative thinking necessary for advancing limb restoration, and will be essential reading for students, as well as researchers, professional engineers, and prosthetists involved in the design and manufacture of artificial limbs. Learning enhanced by the exercises, including physical modeling with MATLAB and Simulink; Includes appendices with relevant equations and parameters for reference; Introduction to the design and engineering of prosthetics and assistive technologies.
Newly available after being out of print for several years, this is the definitive reference on the surgical and prosthetic management of acquired or congenital limb loss. Covers indications for amputation vs. limb salvage for trauma, peripheral vascular disease, and tumours; indications for prostheses for amputation levels; and rehabilitation approaches.
Focusing on the lower extremities and spine, this extensively illustrated text presents a problem-solving approach to the evaluation and prescription of prosthetics and orthotics in physical therapy interventions. Prosthetics and Orthotics presents the latest developments in materials and fabrications, an in-depth analysis of gait deviations and interventions, conditions, psychosocial issues, biomechanics, and more. This invaluable resource also includes pediatric and geriatric perspectives, scientific literature supporting evidence-based practice, exercise and functional activities for the patient, case studies following the APTA's "Guide to Physical Therapist Practice", critical thinking questions, lab activities and practical applications.
A clinical focus with unfolding case studies, stimulating questions, and an outstanding art program of 550 photographs and line illustrations make important concepts easy to understand and apply. You’ll also find a discussion, unique to this text, of the pathology of what necessitates amputations and why you would choose one prosthetic/orthotic over another.