Abstract
The use of robot-assisted techniques in the performance of surgery has been one of the most important developments in surgery in recent decades. The US FDA approved the robot-assisted surgical system for gynecological conditions in 2005, and currently gynecological together with urological are the most common surgical procedures performed with the Da Vinci® robot. In essence the robot system allows a surgeon to operate from a location remote to the patient, which allows improved accuracy, precision and a more comfortable operating position for the surgeon. However, robot-assisted surgery presents new challenges for anesthesiologists including patient positioning, as well as adverse effects on pulmonary, cardiovascular and neurological systems.
The current chapter highlights the most important anesthesia related issues during robot-assisted surgery during the preoperative, intraoperative and post-operative phases. Recommendations are given for patient positioning, intraoperative management and post- operative care. Potential intraoperative emergencies are discussed and a protocol for a standardized ‘undocking’ procedure is described.
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Ng AT, Tam PC. Current status of robot-assisted surgery. Hong Kong Med J. 2014;20:241–50.
Pugin F, Bucher P, Morel P. History of robotic surgery: from AESOP(R) and ZEUS(R) to da Vinci(R). J Visc Surg. 2011;148:e3–8.
Territo A, Mottrie A, Abaza R, et al. Robotic kidney transplantation: current status and future perspectives. Minerva Urol Nefrol. 2016;69(1):5–13.
Chauvet D, Hans S, Missistrano A, Rebours C, Bakkouri WE, Lot G. Transoral robotic surgery for sellar tumors: first clinical study. J Neurosurg. 2016;127(4):941–8.
Zhao Y, Jiao W, Ren X, et al. Left lower lobe sleeve lobectomy for lung cancer using the Da Vinci surgical system. J Cardiothorac Surg. 2016;11:59.
Bellia A, Vitale SG, Lagana AS, et al. Feasibility and surgical outcomes of conventional and robot-assisted laparoscopy for early-stage ovarian cancer: a retrospective, multicenter analysis. Arch Gynecol Obstet. 2016;294:615–22.
Krill LS, Bristow RE. Robotic surgery: gynecologic oncology. Cancer J. 2013;19:167–76.
Lenihan JP Jr. Navigating credentialing, privileging, and learning curves in robotics with an evidence and experienced-based approach. Clin Obstet Gynecol. 2011;54:382–90.
Himpens J, Leman G, Cadiere GB. Telesurgical laparoscopic cholecystectomy. Surg Endosc. 1998;12:1091.
Medical Robotic Systems Market (Surgical Robots, Non-Invasive Radiosurgery Robotic Systems, Prosthetics and Exoskeletons, Assistive and Rehabilitation Robots, Non-Medical Robotics in Hospitals and Emergency Response Robotic Systems) - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2012–2018. 2013. http://www.transparencymarketresearch.com/medical-robotic-systems.html. Accessed May 2017.
Steenwyk B, Lyerly R 3rd. Advancements in robotic-assisted thoracic surgery. Anesthesiol Clin. 2012;30:699–708.
Hu JC, Gu X, Lipsitz SR, et al. Comparative effectiveness of minimally invasive vs open radical prostatectomy. JAMA. 2009;302:1557–64.
Lim PC, Kang E, Park DH. Learning curve and surgical outcome for robotic-assisted hysterectomy with lymphadenectomy: case-matched controlled comparison with laparoscopy and laparotomy for treatment of endometrial cancer. J Minim Invasive Gynecol. 2010;17:739–48.
Avondstondt AM, Wallenstein M, D’Adamo CR, Ehsanipoor RM. Change in cost after 5 years of experience with robotic-assisted hysterectomy for the treatment of endometrial cancer. J Robot Surg. 2017. https://doi.org/10.1007/s11701-017-0700-6.
Fleisher LA, Fleischmann KE, Auerbach AD, et al. 2014 ACC/AHA guideline on perioperative cardiovascular evaluation and management of patients undergoing noncardiac surgery: a report of the American College of Cardiology/American Heart Association Task Force on practice guidelines. J Am Coll Cardiol. 2014;64:e77–137.
Montalescot G, Sabatine MS. Oral dual antiplatelet therapy: what have we learnt from recent trials? Eur Heart J. 2016;37:344–52.
Evidence Review Committee M, Bittl JA, Baber U, Bradley SM, Wijeysundera DN. Duration of dual antiplatelet therapy: a systematic review for the 2016 ACC/AHA guideline focused update on duration of dual antiplatelet therapy in patients with coronary artery disease: a report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines. Circulation. 2016;134:e156–78.
Rist M, Hemmerling TM, Rauh R, Siebzehnrubl E, Jacobi KE. Influence of pneumoperitoneum and patient positioning on preload and splanchnic blood volume in laparoscopic surgery of the lower abdomen. J Clin Anesth. 2001;13:244–9.
Speicher PJ, Ganapathi AM, Englum BR, Vaslef SN. Laparoscopy is safe among patients with congestive heart failure undergoing general surgery procedures. Surgery. 2014;156:371–8.
Rauh R, Hemmerling TM, Rist M, Jacobi KE. Influence of pneumoperitoneum and patient positioning on respiratory system compliance. J Clin Anesth. 2001;13(5):361.
Gerges FJ, Kanazi GE, Jabbour-Khoury SI. Anesthesia for laparoscopy: a review. J Clin Anesth. 2006;18:67–78.
Salihoglu Z, Demiroluk S, Baca B, Ayan F, Kara H. Effects of pneumoperitoneum and positioning on respiratory mechanics in chronic obstructive pulmonary disease patients during Nissen fundoplication. Surg Laparosc Endosc Percutan Tech. 2008;18:437–40.
Silvanus MT, Groeben H, Peters J. Corticosteroids and inhaled salbutamol in patients with reversible airway obstruction markedly decrease the incidence of bronchospasm after tracheal intubation. Anesthesiology. 2004;100:1052–7.
Halverson A, Buchanan R, Jacobs L, et al. Evaluation of mechanism of increased intracranial pressure with insufflation. Surg Endosc. 1998;12:266–9.
Irgau I, Koyfman Y, Tikellis JI. Elective intraoperative intracranial pressure monitoring during laparoscopic cholecystectomy. Arch Surg. 1995;130:1011–3.
Mavrocordatos P, Bissonnette B, Ravussin P. Effects of neck position and head elevation on intracranial pressure in anaesthetized neurosurgical patients: preliminary results. J Neurosurg Anesthesiol. 2000;12:10–4.
Kalmar AF, Foubert L, Hendrickx JF, et al. Influence of steep Trendelenburg position and CO(2) pneumoperitoneum on cardiovascular, cerebrovascular, and respiratory homeostasis during robotic prostatectomy. Br J Anaesth. 2010;104:433–9.
Park EY, Koo BN, Min KT, Nam SH. The effect of pneumoperitoneum in the steep Trendelenburg position on cerebral oxygenation. Acta Anaesthesiol Scand. 2009;53:895–9.
Jackman SV, Weingart JD, Kinsman SL, Docimo SG. Laparoscopic surgery in patients with ventriculoperitoneal shunts: safety and monitoring. J Urol. 2000;164(4):1352.
Sankpal R, Chandavarkar A, Chandavarkar M. Safety of laparoscopy in ventriculoperitoneal shunt patients. J Gynecol Endosc Surg. 2011;2:91–3.
Staikou C, Tsaroucha A, Mani A, Fassoulaki A. Transcranial Doppler monitoring of middle cerebral flow velocity in a patient with a ventriculoperitoneal shunt undergoing laparoscopy. J Clin Monit Comput. 2012;26:487–9.
Awad H, Santilli S, Ohr M, et al. The effects of steep trendelenburg positioning on intraocular pressure during robotic radical prostatectomy. Anesth Analg. 2009;109:473–8.
Adisa AO, Onakpoya OH, Adenekan AT, Awe OO. Intraocular pressure changes with positioning during laparoscopy. JSLS. 2016;20(4):e2016.00078.
Berger JS, Taghreed A, Dayo L, Paul D. Anesthetic considerations for robot-assisted gynecologic and urology surgery. J Anesthe Clinic Res. 2013;4:8.
Lee M, Dallas R, Daniel C, Cotter F. Intraoperative management of increased intraocular pressure in a patient with glaucoma undergoing robotic prostatectomy in the trendelenburg position. A A Case Rep. 2016;6:19–21.
Borahay MA, Patel PR, Walsh TM, et al. Intraocular pressure and steep Trendelenburg during minimally invasive gynecologic surgery: is there a risk? J Minim Invasive Gynecol. 2013;20:819–24.
Sampat A, Parakati I, Kunnavakkam R, et al. Corneal abrasion in hysterectomy and prostatectomy: role of laparoscopic and robotic assistance. Anesthesiology. 2015;122:994–1001.
Roth S, Thisted RA, Erickson JP, Black S, Schreider BD. Eye injuries after nonocular surgery. A study of 60,965 anesthetics from 1988 to 1992. Anesthesiology. 1996;85:1020–7.
Awad H, Walker CM, Shaikh M, Dimitrova GT, Abaza R, O’Hara J. Anesthetic considerations for robotic prostatectomy: a review of the literature. J Clin Anesth. 2012;24:494–504.
Gutt CN, Oniu T, Mehrabi A, et al. Circulatory and respiratory complications of carbon dioxide insufflation. Dig Surg. 2004;21:95–105.
Wiesenthal JD, Fazio LM, Perks AE, et al. Effect of pneumoperitoneum on renal tissue oxygenation and blood flow in a rat model. Urology. 2011;77:1508 e9–15.
Demyttenaere S, Feldman LS, Fried GM. Effect of pneumoperitoneum on renal perfusion and function: a systematic review. Surg Endosc. 2007;21:152–60.
Bagaria M, Luck AM. Postoperative (pressure) alopecia following sacrocolpopexy. J Robot Surg. 2015;9:149–51.
Gollapalli L, Papapetrou P, Gupta D, Fuleihan SF. Post-operative alopecia after robotic surgery in steep Trendelenburg position: a restated observation of pressure alopecia. Middle East J Anaesthesiol. 2013;22:343–5.
Standards for Basic Anesthetic Monitoring. 2010. http://www.asahq.org/~/media/Sites/ASAHQ/Files/Public/Resources/standards-guidelines/standards-for-basic-anesthetic-monitoring.pdf. Accessed May 2017.
Patient Safety. http://www.who.int/patientsafety/safesurgery/en/. Accessed May 2017.
Yu EH, Tran DH, Lam SW, Irwin MG. Remifentanil tolerance and hyperalgesia: short-term gain, long-term pain? Anaesthesia. 2016;71:1347–62.
Yoo YC, Shin S, Choi EK, Kim CY, Choi YD, Bai SJ. Increase in intraocular pressure is less with propofol than with sevoflurane during laparoscopic surgery in the steep Trendelenburg position. Can J Anaesth. 2014;61:322–9.
Yoo YC, Bai SJ, Lee KY, Shin S, Choi EK, Lee JW. Total intravenous anesthesia with propofol reduces postoperative nausea and vomiting in patients undergoing robot-assisted laparoscopic radical prostatectomy: a prospective randomized trial. Yonsei Med J. 2012;53:1197–202.
Turner TB, Habib AS, Broadwater G, et al. Postoperative pain scores and narcotic use in robotic-assisted versus laparoscopic hysterectomy for endometrial cancer staging. J Minim Invasive Gynecol. 2015;22:1004–10.
Pridgeon S, Bishop CV, Adshead J. Lower limb compartment syndrome as a complication of robot-assisted radical prostatectomy: the UK experience. BJU Int. 2013;112:485–8.
Wen T, Deibert CM, Siringo FS, Spencer BA. Positioning-related complications of minimally invasive radical prostatectomies. J Endourol. 2014;28:660–7.
Falabella A, Moore-Jeffries E, Sullivan MJ, Nelson R, Lew M. Cardiac function during steep Trendelenburg position and CO2 pneumoperitoneum for robotic-assisted prostatectomy: a trans-oesophageal Doppler probe study. Int J Med Robot. 2007;3:312–5.
Odeberg S, Ljungqvist O, Svenberg T, et al. Haemodynamic effects of pneumoperitoneum and the influence of posture during anaesthesia for laparoscopic surgery. Acta Anaesthesiol Scand. 1994;38:276–83.
Mets B. Should norepinephrine, rather than phenylephrine, be considered the primary vasopressor in anesthetic practice? Anesth Analg. 2016;122:1707–14.
Ko EM, Muto MG, Berkowitz RS, Feltmate CM. Robotic versus open radical hysterectomy: a comparative study at a single institution. Gynecol Oncol. 2008;111:425–30.
Sert BM, Boggess JF, Ahmad S, et al. Robot-assisted versus open radical hysterectomy: a multi-institutional experience for early-stage cervical cancer. Eur J Surg Oncol. 2016;42:513–22.
Wallin E, Floter Radestad A, Falconer H. Introduction of robot-assisted radical hysterectomy for early stage cervical cancer: impact on complications, costs and oncologic outcome. Acta Obstet Gynecol Scand. 2017;96:536–42.
Sprung J, Abdelmalak B, Schoenwald PK. Recurrent complete heart block in a healthy patient during laparoscopic electrocauterization of the Fallopian tube. Anesthesiology. 1998;88:1401–3.
Choi EM, Na S, Choi SH, An J, Rha KH, Oh YJ. Comparison of volume-controlled and pressure-controlled ventilation in steep Trendelenburg position for robot-assisted laparoscopic radical prostatectomy. J Clin Anesth. 2011;23:183–8.
Jaju R, Jaju PB, Dubey M, Mohammad S, Bhargava AK. Comparison of volume controlled ventilation and pressure controlled ventilation in patients undergoing robot-assisted pelvic surgeries: an open-label trial. Indian J Anaesth. 2017;61:17–23.
Gupta K, Mehta Y, Sarin Jolly A, Khanna S. Anaesthesia for robotic gynaecological surgery. Anaesth Intensive Care. 2012;40:614–21.
Lee JR. Anesthetic considerations for robotic surgery. Korean J Anesthesiol. 2014;66:3–11.
Kim WH, Hahm TS, Kim JA, et al. Prolonged inspiratory time produces better gas exchange in patients undergoing laparoscopic surgery: a randomised trial. Acta Anaesthesiol Scand. 2013;57:613–22.
Chang CH, Lee HK, Nam SH. The displacement of the tracheal tube during robot-assisted radical prostatectomy. Eur J Anaesthesiol. 2010;27:478–80.
Phong SV, Koh LK. Anaesthesia for robotic-assisted radical prostatectomy: considerations for laparoscopy in the Trendelenburg position. Anaesth Intensive Care. 2007;35:281–5.
Mikaeili H, Yazdchi M, Tarzamni MK, Ansarin K, Ghasemzadeh M. Laryngeal ultrasonography versus cuff leak test in predicting postextubation stridor. J Cardiovasc Thorac Res. 2014;6:25–8.
Jackson SA, Laurence AS, Hill JC. Does post-laparoscopy pain relate to residual carbon dioxide? Anaesthesia. 1996;51:485–7.
Torup H, Bogeskov M, Hansen EG, et al. Transversus abdominis plane (TAP) block after robot-assisted laparoscopic hysterectomy: a randomised clinical trial. Acta Anaesthesiol Scand. 2015;59:928–35.
Hutchins J, Delaney D, Vogel RI, et al. Ultrasound guided subcostal transversus abdominis plane (TAP) infiltration with liposomal bupivacaine for patients undergoing robotic assisted hysterectomy: a prospective randomized controlled study. Gynecol Oncol. 2015;138:609–13.
Walters Haygood CL, Fauci JM, Huddleston-Colburn MK, Huh WK, Straughn JM. Outcomes of gynecologic oncology patients undergoing robotic-assisted laparoscopic procedures in a university setting. J Robot Surg. 2014;8:207–11.
Gaia G, Holloway RW, Santoro L, Ahmad S, Di Silverio E, Spinillo A. Robotic-assisted hysterectomy for endometrial cancer compared with traditional laparoscopic and laparotomy approaches: a systematic review. Obstet Gynecol. 2010;116:1422–31.
Serati M, Bogani G, Sorice P, et al. Robot-assisted sacrocolpopexy for pelvic organ prolapse: a systematic review and meta-analysis of comparative studies. Eur Urol. 2014;66:303–18.
Fleming ND, Havrilesky LJ, Valea FA, et al. Analgesic and antiemetic needs following minimally invasive vs open staging for endometrial cancer. Am J Obstet Gynecol. 2011;204:65 e1–6.
Baker J, Janda M, Belavy D, Obermair A. Differences in epidural and analgesic use in patients with apparent stage I endometrial cancer treated by open versus laparoscopic surgery: results from the randomised LACE trial. Minim Invasive Surg. 2013;2013(764329)
Rawal N. Epidural technique for postoperative pain: gold standard no more? Reg Anesth Pain Med. 2012;37:310–7.
Nakano S, Nakahira J, Sawai T, Kadono N, Minami T. Unexpected hemorrhage during robot-assisted laparoscopic prostatectomy: a case report. J Med Case Rep. 2016;10:240.
Kim CS, Kim JY, Kwon JY, et al. Venous air embolism during total laparoscopic hysterectomy: comparison to total abdominal hysterectomy. Anesthesiology. 2009;111:50–4.
Kaye AD, Vadivelu N, Ahuja N, Mitra S, Silasi D, Urman RD. Anesthetic considerations in robotic-assisted gynecologic surgery. Ochsner J. 2013;13:517–24.
Joshi GP. Complications of laparoscopy. Anesthesiol Clin North Am. 2001;19:89–105.
Raveendran R, Prabu HN, Ninan S, Darmalingam S. Fast-track management of pneumothorax in laparoscopic surgery. Indian J Anaesth. 2011;55:91–2.
Ludemann R, Krysztopik R, Jamieson GG, Watson DI. Pneumothorax during laparoscopy. Surg Endosc. 2003;17:1985–9.
Celik H, Cremins A, Jones KA, Harmanli O. Massive subcutaneous emphysema in robotic sacrocolpopexy. JSLS. 2013;17:245–8.
Crawford NM, Pathi SD, Corton MM. Pneumomediastinum after robotic sacrocolpopexy. Female Pelvic Med Reconstr Surg. 2014;20:56–8.
Geerts WH, Bergqvist D, Pineo GF, et al. Prevention of venous thromboembolism: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8th Edition). Chest. 2008;133:381S–453S.
Horlander KT, Mannino DM, Leeper KV. Pulmonary embolism mortality in the United States, 1979-1998: an analysis using multiple-cause mortality data. Arch Intern Med. 2003;163:1711–7.
Mueller MG, Pilecki MA, Catanzarite T, Jain U, Kim JY, Kenton K. Venous thromboembolism in reconstructive pelvic surgery. Am J Obstet Gynecol. 2014;211, 552 e1:–6.
Freeman AH, Barrie A, Lyon L, et al. Venous thromboembolism following minimally invasive surgery among women with endometrial cancer. Gynecol Oncol. 2016;142:267–72.
Barber EL, Gehrig PA, Clarke-Pearson DL. Venous thromboembolism in minimally invasive compared with open hysterectomy for endometrial cancer. Obstet Gynecol. 2016;128:121–6.
Alemzadeh H, Raman J, Leveson N, Kalbarczyk Z, Iyer RK. Adverse events in robotic surgery: a retrospective study of 14 years of FDA data. PLoS One. 2016;11:e0151470.
O’Sullivan OE, O’Sullivan S, Hewitt M, O’Reilly BA. Da Vinci robot emergency undocking protocol. J Robot Surg. 2016;10(3):251.
Huser AS, Muller D, Brunkhorst V, et al. Simulated life-threatening emergency during robot-assisted surgery. J Endourol. 2014;28:717–21.
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Galvin, E.M., de Graaff, H.J. (2018). Anesthesia for Robot Assisted Gynecological Procedures. In: Goudra, B., et al. Anesthesiology. Springer, Cham. https://doi.org/10.1007/978-3-319-74766-8_79
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