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¿Qué es la cirugía asistida por robot? Las operaciones quirúrgicas que se llevan a cabo con equipos robóticos se denominan cirugías robóticas. El objetivo del desarrollo de la cirugía asistida por robot fue mejorar las habilidades de los cirujanos que realizan cirugía abierta e intentar superar los límites de los métodos quirúrgicos mínimamente invasivos que ya estaban en uso en ese momento. Cómo se beneficiará (I) Información y validaciones sobre los siguientes temas: Capítulo 1: Cirugía asistida por robot Capítulo 2: Cirugía general Capítulo 3: Neurocirugía Capítulo 4: Laparoscopia Capítulo 5: Miotomía de Heller Capítulo 6: Histerectomía Capítulo 7: Cirugía a distancia Capítulo 8: Procedimiento mínimamente invasivo Capítulo 9: Cirugía guiada por imagen Capítulo 10: Prostatectomía Capítulo 11: Reversión de trompas Capítulo 12: Prostatectomía radical laparoscópica Capítulo 13: Cirugía asistida por computadora Capítulo 14: da Vinci Sistema quirúrgico Capítulo 15: Mani Menon Capítulo 16: Ashutosh Tewari Capítulo 17: Banda gástrica SILS Capítulo 18: ZEUS Sur robótico sistema gical Capítulo 19: Simulador de cirugía Capítulo 20: Michael Stifelman Capítulo 21: Faiz Bhora (II) Respondiendo a las preguntas principales del público sobre la cirugía asistida por robot. (III) Ejemplos del mundo real para el uso de la cirugía asistida por robot en muchos campos. (IV) 17 apéndices para explicar, brevemente, 266 tecnologías emergentes en cada industria para tener una comprensión completa de 360 ​​grados de las tecnologías de cirugía asistida por robot. Para quién es este libro Profesionales, estudiantes universitarios y graduados estudiantes, entusiastas, aficionados y aquellos que quieren ir más allá del conocimiento o la información básicos para cualquier tipo de cirugía asistida por robot.
Este libro aborda el campo interdisciplinario de la robótica quirúrgica y la inteligencia artificial, explorando las innovaciones que están transformando la práctica médica. Desde una visión histórica de la cirugía hasta el desarrollo de tecnologías avanzadas, se discuten los principales tipos de robots quirúrgicos, sus aplicaciones clínicas y los algoritmos utilizados. También se exploran estudios de casos y ejemplos del mundo real que demuestran el impacto de la robótica y la inteligencia artificial en la eficiencia, la precisión y los resultados quirúrgicos. Además, se tratan temas como el proceso de innovación, los desafíos regulatorios y las perspectivas futuras de la medicina robótica.
¿Qu? es la cirug?a asistida por robot? Las operaciones quir?rgicas que se llevan a cabo con equipos rob?ticos se denominan cirug?as rob?ticas. El objetivo del desarrollo de la cirug?a asistida por robot fue mejorar las habilidades de los cirujanos que realizan cirug?a abierta e intentar superar los l?mites de los m?todos quir?rgicos m?nimamente invasivos que ya estaban en uso en ese momento. C?mo se beneficiar? (I) Informaci?n y validaciones sobre los siguientes temas: Cap?tulo 1: Cirug?a asistida por robot Cap?tulo 2: Cirug?a general Cap?tulo 3: Neurocirug?a Cap?tulo 4: Laparoscopia Cap?tulo 5: Miotom?a de Heller Cap?tulo 6: Histerectom?a Cap?tulo 7: Cirug?a a distancia Cap?tulo 8: Procedimiento m?nimamente invasivo Cap?tulo 9: Cirug?a guiada por imagen Cap?tulo 10: Prostatectom?a Cap?tulo 11: Reversi?n de trompas Cap?tulo 12: Prostatectom?a radical laparosc?pica Cap?tulo 13: Cirug?a asistida por computadora Cap?tulo 14: da Vinci Sistema quir?rgico Cap?tulo 15: Mani Menon Cap?tulo 16: Ashutosh Tewari Cap?tulo 17: Banda g?strica SILS Cap?tulo 18: ZEUS Sur rob?tico sistema gical Cap?tulo 19: Simulador de cirug?a Cap?tulo 20: Michael Stifelman Cap?tulo 21: Faiz Bhora (II) Respondiendo a las preguntas principales del p?blico sobre la cirug?a asistida por robot. (III) Ejemplos del mundo real para el uso de la cirug?a asistida por robot en muchos campos. (IV) 17 ap?ndices para explicar, brevemente, 266 tecnolog?as emergentes en cada industria para tener una comprensi?n completa de 360 ??grados de las tecnolog?as de cirug?a asistida por robot. Para qui?n es este libro Profesionales, estudiantes universitarios y graduados estudiantes, entusiastas, aficionados y aquellos que quieren ir m?s all? del conocimiento o la informaci?n b?sicos para cualquier tipo de cirug?a asistida por robot.
Thanks to the advent of leading-edge technologies, there is a new cross-sectional field of surgery: robotic surgery. Due to the rapid development of robotic surgery systems such as da Vinci, there is a great need to refresh one’s knowledge every day. This book covers all surgical areas: urological surgery, digestive surgery and cardiac surgery in addition to mitral valvular disease. It also summarizes the most current topics in robotic surgery addressed by well-known experts from around the world. These specialists’ expertise provides useful insights into modern educational techniques for the latest trends in surgery—knowledge that will be valuable to students, residents, and experts who are eager to learn more about advanced medical care including da Vinci as a cross-cutting surgical device, even if it lies outside their specialty field.
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.
The purpose of this book is to define the basis of telemicrosurgery, a new discipline at the border of robotics and microsurgery. After the history of robotics and microsurgery, the robots and their instrumentation will be described. The chapters will explain the training in telemicrosurgery and then propose some experimental paradigms. The first clinical applications for various specialties will be explored. In closing, potential future applications will be discussed.
Robotic technology has increasingly been preferred by the medical professionals since they have been used for several clinical applications. Medical robots are preferred since they present better results compared to traditional methods such as smaller incision, higher accuracy, and lesser recovery time. Medical robots can be divided into three progressive generations. The first-generation robots were originally industrial robots that had been modified for performing medical applications in orthopedics, neurosurgery, radiology, and radiotherapy in the 1980s. The second-generation robots have been especially developed for executing surgical operations in the 1990s. After the 2000s, the third-generation medical robots have been designed for performing difficult surgical and medical operations. From the first approved surgical robot AESOP to the current da Vinci Surgical System, there have been several different kinds of surgical robots produced until now. Although the history of surgical robots is very short compared to the history of surgery, thousands of surgical robots have been installed in hospitals worldwide, and hundreds of thousands of people have been treated by these surgical robots. Nowadays, the achievements of the surgical robotics amaze both medical professionals and the patients. It is noteworthy to follow up on the evolution of surgical robotics in the future.
Robotic surgery has already created a paradigm shift in medical surgical procedures and will continue to expand to all surgical and microsurgical interventions. There is no doubt that in doing so robotic surgical systems, such as the da Vinci surgical system, will become smarter and more sophisticated with the integration, implementation, and syner