Pier Cristoforo Giulianotti, Enrico Benedetti, Alberto Mangano
ISBNs: 1264257422, 1264257430, 9781264257423, 9781264257430, 9781264257423, 9781264257430, 1-26-425743-0, 978-1-26-425743-0
English | 2024 | Original PDF | 1104 Pages
The Foundation and Art of Robotic Surgery facilitates the learning of
surgery while applying robotic technology in multiple anatomical
locations, using a comprehensive, concise and practical description of
each standardized surgical procedure. The book provides clear
descriptions of the instrument requirements, indications and relative
contraindications to the robotic approach, preoperative phases including
trocar placement, patient positioning, OR set-up, and a detailed
description of the operative steps.
Each operation is divided
into steps with specific timeframes, for learning and teaching purposes.
Readers will learn how to use robots to make smaller incisions,
decrease blood loss and postoperative pain, as well as foster quicker
healing time and reduce hospital stays. Written by the senior editors
with the contribution of internationally renowned robotic surgeons and
academics, this is an invaluable resource for both beginner and
experienced surgeons performing robotic procedures for the first time.
The Foundation and Art of Robotic Surgery features:
900+ photos and 900+ drawings of the standard anatomy, anatomical variations and surgical maneuvers
Access to 200+ videos (video clips of the main steps and full procedures videos) with a subscription to AccessSurgery
Fifty-one
chapters covering General Principles of Robotic Surgery, Thyroid
Surgery, Chest Surgery, Gastric and Bariatric Surgery, Intestinal
Surgery, Spleen and Pancreas Surgery, Liver Surgery, Transplant Surgery,
and more
Clear, concise presentation of the instruments, tools,
material, indications and relative contraindications to the robotic
approach, preoperative phases and each operative steps
Boxed text highlighting tips and tricks, anatomical notions, common pitfalls, editorial comments and average time frames
Techniques for robotic transplant surgery, renal aneurysm repair and single port robotic surgery principles