Development and validation of surgical training tool: cystectomy assessment and surgical evaluation (CASE) for robot-assisted radical cystectomy for men

BackgroundWe aimed to develop a structured scoring tool: cystectomy assessment and surgical evaluation (CASE) that objectively measures and quantifies performance during robot-assisted radical cystectomy (RARC) for men.MethodsA multinational 10-surgeon expert panel collaborated towards development and validation of CASE. The critical steps of RARC in men were deconstructed into nine key domains, each assessed by five anchors. Content validation was done utilizing the Delphi methodology. Each anchor was assessed in terms of context, score concordance, and clarity. The content validity index (CVI) was calculated for each aspect. A CVI ≥ 0.75 represented consensus, and this statement was removed from the next round. This process was repeated until consensus was achieved for all statements. CASE was used to assess de-identified videos of RARC to determine reliability and construct validity. Linearly weighted percent agreement was used to assess inter-rater reliability (IRR). A logit model for odds ratio (OR) was used to assess construct validation.ResultsThe expert panel reached consensus on CASE after four rounds. The final eight domains of the CASE included: pelvic lymph node dissection, development of the peri-ureteral space, lateral pelvic space, anterior rectal space, control of the vascular pedicle, anterior vesical space, control of the dorsal venous complex, and apical dissection. IRR > 0.6 was achieved for all eight domains. Experts outperformed trainees across all domains.ConclusionWe developed and validated a reliable structured, procedure-specific tool for objective evaluation of surgical performance during RARC. CASE may help differentiate novice from expert performances.

[1]  P. Dasgupta,et al.  Learning curves for urological procedures: a systematic review , 2014, BJU international.

[2]  F. Montorsi,et al.  Best practices in robot-assisted radical cystectomy and urinary reconstruction: recommendations of the Pasadena Consensus Panel. , 2015, European urology.

[3]  Nir Lipsman,et al.  A Systematic Review of the Effects of Resident Duty Hour Restrictions in Surgery , 2014, Annals of surgery.

[4]  A. Goh,et al.  Global evaluative assessment of robotic skills: validation of a clinical assessment tool to measure robotic surgical skills. , 2012, The Journal of urology.

[5]  J. Kaouk,et al.  Long-term oncologic outcomes following robot-assisted radical cystectomy: results from the International Robotic Cystectomy Consortium. , 2015, European urology.

[6]  Elspeth M McDougall,et al.  Best practices for robotic surgery training and credentialing. , 2011, The Journal of urology.

[7]  B. Feldman,et al.  Defining consensus: a systematic review recommends methodologic criteria for reporting of Delphi studies. , 2014, Journal of clinical epidemiology.

[8]  David Julià,et al.  Surgical skill and complication rates after bariatric surgery. , 2014 .

[9]  H. Grossman,et al.  Surgical factors influence bladder cancer outcomes: a cooperative group report. , 2004, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[10]  James L. Mohler,et al.  Development and Validation of a Quality Assurance Score for Robot-assisted Radical Cystectomy: A 10-year Analysis. , 2016, Urology.

[11]  C. Mcalister Breaking the Silence of the Switch--Increasing Transparency about Trainee Participation in Surgery. , 2015, The New England journal of medicine.

[12]  L. Lingard,et al.  How Do Thresholds of Principle and Preference Influence Surgeon Assessments of Learner Performance? , 2017, Annals of surgery.

[13]  Khurshid A Guru,et al.  Development and Validation of an Objective Scoring Tool for Robot‐Assisted Radical Prostatectomy: Prostatectomy Assessment and Competency Evaluation , 2017, The Journal of urology.

[14]  M. Cooperberg,et al.  Outcomes for radical prostatectomy: is it the singer, the song, or both? , 2012, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[15]  R. Rabenalt,et al.  Modular Training for Residents with no Prior Experience with Open Pelvic Surgery in Endoscopic Extraperitoneal Radical Prostatectomy , 2006 .

[16]  Lora Cavuoto,et al.  The Loud Surgeon Behind the Console: Understanding Team Activities During Robot-Assisted Surgery. , 2016, Journal of surgical education.

[17]  Steven L. Chang,et al.  Propensity-matched comparison of morbidity and costs of open and robot-assisted radical cystectomies: a contemporary population-based analysis in the United States. , 2014, European urology.

[18]  M. Lerner,et al.  Does training on a virtual reality robotic simulator improve performance on the da Vinci surgical system? , 2010, Journal of endourology.

[19]  J. Cheville,et al.  The SPARC score: a multifactorial outcome prediction model for patients undergoing radical cystectomy for bladder cancer. , 2013, The Journal of urology.

[20]  F. Saad,et al.  Contemporary 90-day mortality rates after radical cystectomy in the elderly. , 2014, European journal of surgical oncology : the journal of the European Society of Surgical Oncology and the British Association of Surgical Oncology.

[21]  K. Guru,et al.  Surgical Competency for Robot-Assisted Hysterectomy: Development and Validation of a Robotic Hysterectomy Assessment Score (RHAS). , 2017, Journal of minimally invasive gynecology.

[22]  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 .

[23]  R. Abaza,et al.  Development, validation and clinical application of Pelvic Lymphadenectomy Assessment and Completion Evaluation: intraoperative assessment of lymph node dissection after robot‐assisted radical cystectomy for bladder cancer , 2017, BJU international.

[24]  Melina C Vassiliou,et al.  A global assessment tool for evaluation of intraoperative laparoscopic skills. , 2005, American journal of surgery.

[25]  Prokar Dasgupta,et al.  Pilot Validation Study of the European Association of Urology Robotic Training Curriculum. , 2015, European urology.

[26]  Cheryl Tatano Beck,et al.  Is the CVI an acceptable indicator of content validity? Appraisal and recommendations. , 2007, Research in nursing & health.