Have an idea for a new tool or instrument? This a great resource to use to bring your invention ideas to the bedside! Written for clinicians, researchers, students, and entrepreneurs, this concise yet comprehensive review presents a clear process to identify, invent, and implement new technology solutions that aid in effective and safe practice in orthopedic surgery.
"Orthopaedic surgery remains one of the most consistently innovative areas in medicine and surgery, with a higher percentage of close relationships between surgeons and equipment companies than in other areas of surgery in which I've worked. It is vital and lucrative area. In 2015, the total value of U.S. industry shipments for the products covered by the North American Industry Classification System (NAICS) categories was worth $43 billion and, in recent years, has experienced approximately 1.5 percent annual growth. Written for clinicians, researchers, students, and entrepreneurs, this concise yet comprehensive review presents a clear process to identify, invent, and implement new technology solutions that aid in effective and safe practice in orthopedic surgery. Includes practical advice on how to scope and scale markets, develop ideas within institutions, create business plans, and identify business partners. Written by a team of medical, engineering, and business experts, including executives from the equipment industry.Reflects the medical device industry increased globalization and focus on value-conscious healthcare.Features stories of technological developments that have shaped modern orthopaedic surgery practice. Reviews and evaluates emerging technologies, including reasons for success, reasons for failure, and lessons that can be applied to new solutions"--
This book addresses all aspects of digital techniques in orthopedics, from development of the core principles to imaging techniques, computer-aided design, reverse engineering and their applications. It illustrates the successful applications in accurate operation using 3-D reconstruction and applied digital techniques. All illustrations and tables were meticulously selected and are easy to understand. The book was written for all doctors and researchers who work in the fields of orthopedics, CAD/CAM and anatomy. Above all, surgeons, physiatrists, radiologists, and engineers in image processing and orthopedics will find it a valuable resource.
This volume of Orthopedic Clinics will focus on New Technologies. Edited by members of a distinguished board from the Campbell Clinic. Each issue features articles from the key subspecialty areas of knee and hip, hand and wrist, shoulder and elbow, foot and ankle, pediatrics, and trauma. Topics discussed in the issue will include: Control Strategies for Infection Prevention in Total Joint Arthroplasty; Additive Manufacturing in Total Joint Arthroplasty; Bioprinting in Orthopedic Reconstructive Surgery; New Technologies in Pediatric Spine Surgery; New Technologies in Pediatric Deformity Correction; Navigation in Shoulder Arthroplasty: A New Take on an Old Technology; Technologies to Augment Rotator Cuff Healing after Repair; The Use of Tantalum Metal in Foot and Ankle Surgery; New Technology in the Treatment of Hallux Rigidus with Interposition Arthroplasty; and Technologies in the Treatment of Bone Marrow Edema Syndrome, among others.
Healthcare Information Technology Innovation and Sustainability: Frontiers and Adoption presents research in the emerging field on information systems and informatics in the healthcare industry. By addressing innovative concepts and critical issues through case studies and experimental research, this reference source is useful for practitioners, researchers and academics aiming to advance the knowledge and practice of these interdisciplinary fields of healthcare information.
In this book, leading international thinkers in the still nascent field of orthopaedic sports medicine consider what the future holds and give their views on what we should be most worried about. The range of issues addressed is wide, encompassing technological threats, environmental concerns, big data and its ramifications, the influence of industry, academic ethics, and much more. Many of the identified dangers are not yet on the popular radar, and these are the principal focus of the book. On the other hand, attention is also paid to misplaced fears, with explanation as to why these anxieties can be laid to rest. The contributors are leading thinkers in the field and include original pioneers of sports medicine, senior and newly appointed orthopaedic surgeons, orthopaedic trainees, and sports medicine physicians. In addition, leaders of industry in sports medicine and allied health professionals from around the world share their fears. This compelling and thought-provoking book, published in collaboration with ISAKOS, will appeal to all stakeholders in orthopaedic sports medicine.
Part of the highly regarded Master Techniques in Orthopaedic Surgery series, Fractures, Fourth Edition, is a concise, lavishly illustrated reference covering the most advanced, successful surgical techniques for fractures of the upper extremity, lower extremity, pelvis, and acetabulum—all in step-by-step detail. This fully revised edition presents the preferred techniques of surgical masters, illustrated with full-color, sequential, surgeon’s-eye view intraoperative photographs, as well as superb drawings by noted medical illustrators. New and rewritten chapters keep you fully up to date with recent changes in the field.
From bandage to the bioreactor, this book looks at five different device technologies from inception to healthcare practice, drawing on medical sociology, science and technology studies and political science. It examines 'evidence', regulation and governance processes, and diverse stakeholders in innovating the technologies that shape health care.
This book brings together a collection of empirical case studies featuring a wide spectrum of medical innovation. While there is no unique pathway to successful medical innovation, recurring and distinctive features can be observed across different areas of clinical practice. This book examines why medical practice develops so unevenly across and within areas of disease, and how this relates to the underlying conditions of innovation across areas of practice. The contributions contained in this volume adopt a dynamic perspective on medical innovation based on the notion that scientific understanding, technology and clinical practice co-evolve along the co-ordinated search for solutions to medical problems. The chapters follow an historical approach to emphasise that the advancement of medical know-how is a contested, nuanced process, and that it involves a variety of knowledge bases whose evolutionary paths are rooted in the contexts in which they emerge. This book will be of interest to researchers and practitioners concerned with medical innovation, management studies and the economics of innovation. Chapter 5 of this book is freely available as a downloadable Open Access PDF at http://www.taylorfrancis.com under a Creative Commons Attribution-Non Commercial-No Derivatives (CC-BY-NC-ND) 3.0 license.
This is the 2nd edition of Technological Innovation. Profiting from technological innovation requires scientific and engineering expertise, and an understanding of how business and legal factors facilitate commercialization. This volume presents a multidisciplinary view of issues in technology commercialization and entrepreneurship.
