Pediatric Robotic and Reconstructive Urology. A Comprehensive Guide

  • ID: 2222864
  • Book
  • 364 Pages
  • John Wiley and Sons Ltd
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Robotic urological surgery is one of the most significant urological developments in recent years. It allows for greater precision than laparoscopic methods while retaining quicker recovery time and reduced morbidity over classical open surgical techniques. For children, where the room for error is already reduced because of smaller anatomy, it takes on even more importance for urologists.  As a result, robotic surgery is rightly considered one of the most exciting contemporary developments in pediatric urology.

Pediatric Robotic and Reconstructive Urology: A Comprehensive Guide provides specialist and trainees with an innovative text and video guide to this dynamic area, in order to aid mastery of robotic approaches and improve the care of pediatric patients.

Full–color throughout and including over 130 color images, this comprehensive guide covers key areas including:

  • Training, instrumentation and physiology of robotic urologic surgery
  • Surgical planning and techniques involved
  • Adult reconstructive principles applicable to pediatrics
  • Management of complications, outcomes and future perspectives for pediatric urologic surgery

Also included are 30 high–quality surgical videos illustrating robotic surgery in action, accessed via a companion website, thus providing the perfect visual tool for the user.

With chapters authored by the leading names in the field, and expertly edited by Mohan Gundeti, this ground–breaking book is essential reading for all pediatric urologists, pediatric surgeons and general urologists, whether experienced or in training.

Of related interest

Smith′s Textbook of Endourology, 3ESmith, ISBN 9781444335545

Pediatric Urology: Surgical Complications and ManagementWilcox, ISBN 9781405162685

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List of Contributors, x

Forewords by David Bloom, Arieh L. Shalhav, and Patrick Duffy, xvi

Preface, xviii

Acknowledgments, xx

Part I History, Training, Instrumentation, and Physiology, 1

1 The Evolution of Robotic Surgery and Its Clinical Applications, 3Shyam Sukumar, Mahendra Bhandari, and Mani Menon

2 Stepwise Approach to Training for Robotic Surgery and Credentialing, 10Jason Y. Lee and Elspeth M. McDougall

3 Role of Simulators in Robotic Surgery, 19Thenkurussi Kesavadas and Khurshid Guru

4 Operating Room Setup and Instrumentation, 29Frank J. Penna and Jack S. Elder

5 Different Robotic Surgical Systems and Instruments: Advantages and Disadvantages, 38Gaayana A. Raju and Michael C. Ost

6 Transition to Robotic from Laparoscopic Surgery: Lessons Learned, 44Vijaya Vemulakonda and Duncan T. Wilcox

7 Laparoscopy as a Foundation and Its Limitations and Pitfalls in Reconstructive Pediatric Urology, 51Nilay S. Patel, Asif Muneer, and Imran Mushtaq

8 Limitations and Difficulties of the Present Robotic Surgical Systems for Pediatric Use: Tips and Tricks, 58Christina Kim

9 Building a Robotic Program: a Viable Business Plan, 65Marcelo A. Orvieto and Vipul R. Patel

10 The Basics of Robotic Surgery and a "Team Approach", 72Gregory P. Zagaja

11 Anesthetic Considerations for Robotic Surgery, 76Sara L. Pittenger, Michael R. Hernandez, and Catherine Bachman

12 Physiological Changes During Minimally Invasive Surgery, 87Francisco J. Reed Lopez–Guerena, Marc–David Leclair, and Pedro–Jose Lopez E.

Part II Surgical Techniques, 93

Section 1: Renal and Adrenal Applications

13 Anatomy of Kidney and Adrenal Gland for Minimally Invasive Surgery, 97Walid A. Farhat and Bryce A. Weber

14 Robotic–Assisted Laparoscopic Nephrectomy for Benign Kidney Disease, 104Shiv Patel, Ardavan Akhavan, and Jeffrey A. Stock

15 Robotic Heminephrectomy, 111Lori Dyer, Emad Riskala, and Israel Franco

16 Pyeloplasty: a Transperitoneal Approach, 120Rita Gobet

17 Pyeloplasty: a Retroperitoneal Approach, 125L. Henning Olsen and Yazan F. Rawashdeh

18 Robotic Pyeloplasty in Complex Renal Anomalies, 129Aria A. Razmaria, Gautam Jayram, and Mohan S. Gundeti

19 Reconstructive Surgery in Duplex Kidney, 136Paul H. Noh

20 Stone Treatment, 142Pablo Gomez III, Carlo C. Passerotti, and Richard S. Lee

Section 2: Ureteral Applications

21 Robotic–Assisted Intravesical Ureteral Reimplantation, 151Brian J. Minnillo, Giovanni S. Marchini, and Hiep T. Nguyen

22 Robotic–Assisted Extravesical Ureteral Reimplantation, 160Pasquale Casale

23 Ureteral Defects and Retrocaval Ureter, 163Aseem R. Shukla

Section 3: Bladder Applications

24 Anatomy of Large and Small Bowel and Appendix Including Their Blood Supply for Cystoplasty and Appendicovesicostomy with a Minimally Invasive Approach, 171Prasad P. Godbole

25 Anatomy of the Pelvis and Lower Urinary Tract for Minimally Invasive Surgery Reconstruction, 175Naeem Samnakay and Japinder Khosa

26 Robotic–Assisted Laparoscopic Ileocystoplasty and Continent Catheterizable Channels, 179Mohan S. Gundeti

27 Robotic–Assisted Bladder Neck Surgery and Slings, 187Douglas W. Storm and Joel M. Sumfest

Section 4: Other Applications

28 Bladder Diverticulum Excision, 195Jennifer A. Hagerty and Bruce W. Lindgren

29 Robotic General Surgery in Neonates and Small Children, 199John J. Meehan

30 Vaginoplasty: Robotically Assisted Laparoscopic Technique, 216Christina Kim

31 Seminal Vesical Cyst Excision, 223Michael Erhard

Part III: Adult Reconstructive Principles Applicable to Pediatrics, 229

32 Robotic NOTES (Natural Orifice Transluminal Endoscopic Surgery) in Adults: Limitations in the Pediatric Population, 231Isuru S. Jayaratna, Vannita Simma–Chiang, Mihir M. Desai, and Chester J. Koh

33 Laparoendoscopic Single–Site (LESS) Surgery and Robotic Laparoendoscopic Single–Site (R–LESS) Surgery in Urology: Adult and Pediatric Applications, 237Andrew J. Hung, Manuel S. Eisenberg, Inderbir S. Gill, Mihir M. Desai, and Chester J. Koh

34 Robotics in Adrenal Disease, 245Aron Bruhn and Michael D. Stifelman

35 Alternative Techniques of Pyeloplasty in the Adult Population, 254Narmada P. Gupta and Rajiv Yadav

36 Ureteral Defects and Ureterovaginal Fistulas, 261Irina Stanasel and Ashok K. Hemal

37 Robotic Reconstruction Techniques Following Cystectomy, 269Miles A. Goldstraw, Salil Umranikar, Krishna Patil, Roger S. Kirby, and Prokar Dasgupta

Part IV: Complications, Outcomes, and Future Perspective, 277

38 Robotic Surgery Complications and Safety, 279Daniel DaJusta and Linda A. Baker

39 Robotic Surgery Outcomes: Upper Urinary Tract, 290Hsi–Yang Wu and Douglas A. Canning

40 Robotic Surgery Outcomes: Lower Urinary Tract, 293Rosalia Misseri and Martin Kaefer

41 Family Perceptions and Impact of New Technology on Decision Making, 298Shawn M. Beck and Antoine E. Khoury

42 The Asian Continent: Is It Ready for New Technology? An Indian Perspective, 305Rajendra B. Nerli, Mallikarjuna N. Reddy, and Sujit K. Chowdhary

43 The Asian Continent: Is It Ready for New Technology? A Chinese Perspective, 312Jie Sun

44 Telerobotics: Its Future in Clinical Application, 314Thomas S. Lendvay, Jacob Rosen, and Blake Hannaford

45 Role of Haptics in Robotic Surgery: Present and Future Applications, 328Young Soo Park, Kyu Suk Baek, and Mohan S. Gundeti

Index, 337

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Mohan S. Gundeti, MD, Comer Children′s Hospital, University of Chicago, Chicago, IL, USA
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