Evolution of a Novel Robotic Training Curriculum in a Complex General Surgical Oncology Fellowship

BackgroundRobotic surgery is increasingly being used for complex oncologic operations, although currently there is no standardized curriculum in place for surgical oncologists. We describe the evolution of a proficiency-based robotic training program implemented for surgical oncology fellows, and demonstrate the outcomes of the program.MethodsA 5-step robotic curriculum began integration in July 2013. Fellows from July 2013 to August 2017 were included. An education portfolio was created for each fellow, including pre-fellowship experience, fellowship experience with data from robotic curriculum and operative experience, and post-fellowship practice information.ResultsOf 30 fellows, 20% completed a prior fellowship, 97% trained at an academic residency, 57% had prior robotic training (median 5 h), and 43% had performed robotic surgery (median 0 cases). In fellowship, on average, fellows spent 5 h on the virtual reality curriculum and performed 19 biotissue anastomoses. For total surgeries, fellows operating from the console increased over time (p = 0.005). For pancreas, the average percentage of robotic pancreaticoduodenectomy (PD) steps completed increased (p < 0.011), as did the number of PDs in which the fellow completed the entire resection (p = 0.013). Fellows were 10 times more likely to complete the entire distal than PD from the console (p < 0.01). Post-fellowship, 83% of fellows obtained an academic position, 88% utilized robotics, and 91% performed pancreatic surgery.ConclusionsWith dedicated training, fellows can safely primarily perform complex gastrointestinal robotic surgeries and, after graduation, take jobs incorporating this skill set. In this era of scrutiny on cost and outcomes, specialized training programs offer a safe integration option for complex technical skills.

[1]  D. Gouma,et al.  Impact of nationwide centralization of pancreaticoduodenectomy on hospital mortality , 2012, The British journal of surgery.

[2]  Sandeep Aggarwal,et al.  Surgical skill and complication rates after bariatric surgery. Birkmeyer JD, Finks JF, O'Reilly A, Oerline M, Carlin AM, Nunn AR, et al. Michigan Bariatric Surgery Collaborative. N Engl J Med. 2013;369:1434–1442 , 2014 .

[3]  Amer H Zureikat,et al.  Grading of Surgeon Technical Performance Predicts Postoperative Pancreatic Fistula for Pancreaticoduodenectomy Independent of Patient-related Variables , 2016, Annals of surgery.

[4]  Amer H Zureikat,et al.  Robotic Pancreatoduodenectomy Biotissue Curriculum has Validity and Improves Technical Performance for Surgical Oncology Fellows. , 2017, Journal of surgical education.

[5]  H. Zeh,et al.  Mastery-Based Virtual Reality Robotic Simulation Curriculum: The First Step Toward Operative Robotic Proficiency. , 2017, Journal of surgical education.

[6]  D. Bartlett,et al.  Robotic-Assisted Placement of an Hepatic Artery Infusion Pump and Catheter for Regional Chemotherapy of the Liver , 2016, Annals of Surgical Oncology.

[7]  Amer H Zureikat,et al.  Assessment of quality outcomes for robotic pancreaticoduodenectomy: identification of the learning curve. , 2015, JAMA surgery.

[8]  Po-Huang Lee,et al.  Robotic Versus Open Hepatectomy for Hepatocellular Carcinoma: A Matched Comparison , 2017, Annals of Surgical Oncology.

[9]  D. Lips,et al.  Outcomes of a Multicenter Training Program in Laparoscopic Pancreatoduodenectomy (LAELAPS-2) , 2017, Annals of surgery.

[10]  Philip Smith,et al.  Adoption of robotics in a general surgery residency program: at what cost? , 2016, The Journal of surgical research.

[11]  S. Chalikonda,et al.  A Multi-institutional Comparison of Perioperative Outcomes of Robotic and Open Pancreaticoduodenectomy , 2016, Annals of surgery.

[12]  H. Zeh,et al.  Robotic and open distal pancreatectomy with celiac axis resection for locally advanced pancreatic body tumors: a single institutional assessment of perioperative outcomes and survival. , 2016, HPB : the official journal of the International Hepato Pancreato Biliary Association.

[13]  Therese A. Stukel,et al.  Surgeon volume and operative mortality in the United States , 2004 .

[14]  G. Fried,et al.  Development of a model for training and evaluation of laparoscopic skills. , 1998, American journal of surgery.

[15]  W. Melvin,et al.  Robotic resection of pancreatic neuroendocrine tumor. , 2003, Journal of laparoendoscopic & advanced surgical techniques. Part A.

[16]  D. Raptis,et al.  Evaluation of Hepato-Pancreato-Biliary (HPB) fellowships: an international survey of programme directors. , 2011, HPB : the official journal of the International Hepato Pancreato Biliary Association.

[17]  S. Hilsenbeck,et al.  Assessment of the learning curve for pancreaticoduodenectomy. , 2012, American journal of surgery.

[18]  J. Birkmeyer,et al.  Surgical skill and complication rates after bariatric surgery. , 2013, The New England journal of medicine.

[19]  H. Zeh,et al.  Robotic approach mitigates perioperative morbidity in obese patients following pancreaticoduodenectomy. , 2017, HPB : the official journal of the International Hepato Pancreato Biliary Association.

[20]  N. Kim,et al.  Long-term oncologic outcomes of robotic low anterior resection for rectal cancer: a comparative study with laparoscopic surgery. , 2015, Annals of surgery.

[21]  Jeffrey E. Lee,et al.  The learning curve in pancreatic surgery. , 2007, Surgery.

[22]  H. Zeh,et al.  Safety and feasibility of the robotic platform in the management of surgical sequelae of chronic pancreatitis , 2018, Surgical Endoscopy.

[23]  H. Zeh,et al.  An analysis of risk factors for pancreatic fistula after robotic pancreaticoduodenectomy: outcomes from a consecutive series of standardized pancreatic reconstructions , 2016, Surgical Endoscopy.

[24]  H. Hur,et al.  Robot-assisted distal gastrectomy for gastric cancer: initial experience. , 2011, American journal of surgery.

[25]  G. Fried,et al.  Fundamentals of endoscopic surgery: creation and validation of the hands-on test , 2013, Surgical Endoscopy.

[26]  I. Leitman,et al.  General surgery residents' perception of robot-assisted procedures during surgical training. , 2015, Journal of surgical education.

[27]  Amer H Zureikat,et al.  Safety in Numbers , 2016, Surgical innovation.

[28]  Pietro Addeo,et al.  Robot-assisted laparoscopic pancreatic surgery: single-surgeon experience , 2010, Surgical Endoscopy.

[29]  H. Zeh,et al.  Robotic pancreatoduodenectomy at an experienced institution is not associated with an increased risk of post-pancreatic hemorrhage. , 2017, HPB : the official journal of the International Hepato Pancreato Biliary Association.

[30]  J. Birkmeyer,et al.  Surgeon volume and operative mortality in the United States. , 2003, The New England journal of medicine.

[31]  G. Fried,et al.  Development and validation of a comprehensive program of education and assessment of the basic fundamentals of laparoscopic surgery. , 2004, Surgery.

[32]  N. Kim,et al.  Simultaneous development of laparoscopy and robotics provides acceptable perioperative outcomes and shows robotics to have a faster learning curve and to be overall faster in rectal cancer surgery: analysis of novice MIS surgeon learning curves , 2015, Surgical Endoscopy.

[33]  Walker Reynolds The First Laparoscopic Cholecystectomy , 2001, JSLS : Journal of the Society of Laparoendoscopic Surgeons.

[34]  U. Boggi,et al.  Training in Minimally Invasive Pancreatic Resections: a paradigm shift away from "See one, Do one, Teach one". , 2017, HPB : the official journal of the International Hepato Pancreato Biliary Association.

[35]  A. Moser,et al.  Robotic-assisted major pancreatic resection. , 2011, Advances in surgery.

[36]  Vipul Patel,et al.  Fundamentals of robotic surgery: a course of basic robotic surgery skills based upon a 14‐society consensus template of outcomes measures and curriculum development , 2014, The international journal of medical robotics + computer assisted surgery : MRCAS.

[37]  Seon-Han Kim,et al.  The multiphasic learning curve for robot-assisted rectal surgery , 2013, Surgical Endoscopy.

[38]  D. Jeyarajah,et al.  Consensus Conference on North American Training in Hepatopancreaticobiliary Surgery: A Review of the Conference and Presentation of Consensus Statements , 2016, Annals of Surgical Oncology.

[39]  C. Bassi,et al.  Defining the practice of pancreatoduodenectomy around the world. , 2015, HPB : the official journal of the International Hepato Pancreato Biliary Association.

[40]  Man Sik Park,et al.  Rapid adaptation of robotic gastrectomy for gastric cancer by experienced laparoscopic surgeons , 2011, Surgical Endoscopy.