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Build a solid foundation in surgical AI with this engaging, comprehensive guide for AI novices Machine learning, neural networks, and computer vision in surgical education, practice, and research will soon be de rigueur. Written for surgeons without a background in math or computer science, Artificial Intelligence in Surgery provides everything you need to evaluate new technologies and make the right decisions about bringing AI into your practice. Comprehensive and easy to understand, this first-of-its-kind resource illustrates the use of AI in surgery through real-life examples. It covers the issues most relevant to your practice, including: Neural Networks and Deep Learning Natural Language Processing Computer Vision Surgical Education and Simulation Preoperative Risk Stratification Intraoperative Video Analysis OR Black Box and Tracking of Intraoperative Events Artificial Intelligence and Robotic Surgery Natural Language Processing for Clinical Documentation Leveraging Artificial Intelligence in the EMR Ethical Implications of Artificial Intelligence in Surgery Artificial Intelligence and Health Policy Assessing Strengths and Weaknesses of Artificial Intelligence Research Finally, the appendix includes a detailed glossary of terms and important learning resources and techniques―all of which helps you interpret claims made by studies or companies using AI.
Robotics began as a science fiction creation which has become quite real, first in assembly line operations such as automobile manufacturing, airplane construction etc. They have now reached such areas as the ever-multiplying - medical field. Robotic surgery is now becoming highly practised in open heart, lung, and other forms of surgery. This book covers the developing stages of robotic surgery and its expectations in the medical field.
Promotes the recognition, treatment, and prevention of conditions of overweight and obesity in the United States.
Handbook of Robotic and Image-Guided Surgery provides state-of-the-art systems and methods for robotic and computer-assisted surgeries. In this masterpiece, contributions of 169 researchers from 19 countries have been gathered to provide 38 chapters. This handbook is 744 pages, includes 659 figures and 61 videos. It also provides basic medical knowledge for engineers and basic engineering principles for surgeons. A key strength of this text is the fusion of engineering, radiology, and surgical principles into one book. - A thorough and in-depth handbook on surgical robotics and image-guided surgery which includes both fundamentals and advances in the field - A comprehensive reference on robot-assisted laparoscopic, orthopedic, and head-and-neck surgeries - Chapters are contributed by worldwide experts from both engineering and surgical backgrounds
Essential Surgery is part of a nine volume series for Disease Control Priorities which focuses on health interventions intended to reduce morbidity and mortality. The Essential Surgery volume focuses on four key aspects including global financial responsibility, emergency procedures, essential services organization and cost analysis.
The introduction of a new technology in a consolidated field has the potential to disrupt usual practices and create a fertile ground for errors. An example is robotic surgery that is now used in most surgical specialties, pushed by technology developers and enthusiastic surgeons. To analyze the potential impact of robotic surgery on patient safety, a consortium of major European Universities started the project SAFROS whose findings are summarized and further elaborated in the three parts of this book. Part one describes safety in complex systems such as surgery, how this may disrupt the traditional surgical workflow, how safety can be monitored, and the research questions that must be posed. Part two of the book describes the main findings of this research, by identifying the risks of robotic surgery and by describing where its ancillary technologies may fail. This part addresses features and evaluation of anatomic imaging and modeling, actions in the operating room, robot monitoring and control, operator interface, and surgical training. Part three of the book draws the conclusions and offers suggestions on how to limit the risks of medical errors. One possible approach is to use automation to monitor and execute parts of an intervention, thus suggesting that robotics and artificial intelligence will be major elements of the operating room of the future.
This book describes the fundamentals of three-dimensional (3D) printing, addresses the practical aspects of establishing a 3D printing service in a medical facility, and explains the enormous potential value of rendering images as 3D printed models capable of providing tactile feedback and tangible information on both anatomic and pathologic states. Individual chapters also focus on selected areas of applications for 3D printing, including musculoskeletal, craniomaxillofacial, cardiovascular, and neurosurgery applications. Challenges and opportunities related to training, materials and equipment, and guidelines are addressed, and the overall costs of a 3D printing lab and the balancing of these costs against clinical benefits are discussed. Radiologists, surgeons, and other physicians will find this book to be a rich source of information on the practicalities and expanding medical applications of 3D printing.