Intuitive Surgical - An Overview.- Robotic Simulation Training.- Robotic Resident & Fellow Surgery Training.- Medico-Legal Issues in Robotic Surgery.- Robotic Hiatal Hernias and Nissen Fundoplication.- Robotic Heller Myotomy.- Robotic Sleeve Gastrectomy.- Robotic Gastric Bypass/Duodenal Switch.- Robotic Total Gastrectomy with Lymphadenectomy.- Robotic Cholecystectomy.- Robotic Liver Resection.- Robotic Total Pancreatectomy.- Robotic Adrenalectomy.- Robotic Right & Left Colectomy.- Robotic Total Mesorectal Excision for Rectal Cancer.- Robotic Abdominoperineal Resection.- Robotic Inguinal Hernia.- Robotic Transabdominal Preperitoneal Repair for Ventral/Incisional & Atypical Hernias.- Robotic Transanal Resection.- Robotic Parastomal Hernia.- Robotic Flank Hernia Repair.- Robotic Transversus Abdominis Release.- Robotic Suprapubic Hernias.- Robotic Proctocolectomy.- Robotic Hysterectomy.- Robotic Myomectomy.- Robotic Tubo-Ovarian Surgery.- Robotic Intracorporeal Ileal Conduit.- Robotic Partial Nephrectomy.- Radical Prostatectomy.- Robotic Intracorporeal Urinary Diversion for Bladder Cancer.- Robotic CABG.- Robotic Lobectomy and Segmentectomy Technique and Results.- Robotic Esophagectomy.- Robotic Telemicrosurgery.- Robotic Rectus Muscle Flap for Reconstruction in the Pelvis.- Robotic Thyroidectomy.- Upcoming Robotic Systems.- Robotics in the Military.- Future Robotic Systems: Microrobotics and Autonomous Robots.
Minimally invasive surgery has impacted the outcomes of surgery more than any technology since the development of sterile technique. The hard science has demonstrated that decrease in wound complications and recovery time has created the biggest gap with open approaches to surgery. The total economic benefit may be unfathomable when looked at comprehensively. Integral to the rise of minimal access and therapeutic techniques in surgery has been the growth of technological improvements over time. Beginning with insufflators, videoscopy, and energy devices, that evolution has continued into the development of tele-surgical devices that feature full articulation of instruments, high-resolution 3-D optics, and computer assisted movement. This has come with controversy - as the dominant manufacturer of robotic assisted devices, Intuitive Surgical, and their generations of da Vinci surgical platforms, holds enough market share to spur cries of monopoly and financial excess. However, with over 3000 world-wide systems in use, and over 6000 peer-reviewed research articles, the impact of robotic surgery cannot be ignored. The current state of data suggests equivalency in most procedures with regard to traditional outcome measures, equal or somewhat elevated costs, with specific areas of superiority.
The first section of this textbook, Surgical Robots, covers the history, economics, training, and medico-legal aspects of robotic surgery that will be of interest to students, residents, fellows, surgical staff, and administrators or public health specialists who seek to gain a comprehensive background on robotic surgery, or justification for purchasing a robotic system for their institution. Surgeons will also find this background valuable to their practice, to give context to their procedures so they can better counsel their patients, help with advocating for robotic platform purchases, and proactively prepare themselves for medico-legal issues. The chapter on legal issues will have specific instances of robotic surgery-related lawsuits and their outcomes, a first for robotic surgery texts. The second section of this textbook, Robotic Procedures, will contain a comprehensive catalogue of procedures that have been performed robotically in general surgery, gynecology, urology, plastic surgery, cardiothoracic, and otolaryngology. Each author will cover the existing literature, preoperative planning, room and patient setup, steps of the procedure, and postoperative care. Standardized room maps and port placement will help the student, resident, fellow, surgeon or OR Staff to quickly reference these before cases. Each chapter will also cover the specific equipment needs and expected complexity of the procedures, allowing administrators to better gauge how to prepare for, or ration, use or their robotic resources.
The final section, Future of Robotics, will give the entire scope of audience a look into what exciting advancements in the field are on the horizon.
This textbook is a complete resource for robotic-assisted minimally invasive surgery, covering the history, current state, technical and clinical aspects, and future considerations that may be of interest to any who has a role, stake, or curiosity regarding robotic surgery.
Shawn Tsuda, University of Nevada School of Medicine
Las Vegas, Nevada. USA
Omar Yusef KudsiTufts, University School of Medicine
Boston, Massachusetts. USA