Demands of surgical teams in robotic-assisted surgery: An assessment of intraoperative workload within different surgical specialties.

[1]  L. Yurteri-Kaplan,et al.  Surgical Ergonomics and Preventing Work-Related Musculoskeletal Disorders. , 2023, Obstetrics and gynecology.

[2]  T. Esen,et al.  Experiences of perioperative nurses with robotic-assisted surgery: a systematic review of qualitative studies , 2022, Journal of Robotic Surgery.

[3]  Tara N. Cohen,et al.  Using the National Aeronautics Space Administration Task Load Index (NASA-TLX) in surgery: Considerations for use “in the wild” , 2022, Proceedings of the Human Factors and Ergonomics Society Annual Meeting.

[4]  Tara N. Cohen,et al.  A Novel Approach for Engagement in Team Training in High-Technology Surgery: The Robotic-Assisted Surgery Olympics , 2022, Journal of patient safety.

[5]  Helen E. Nuttall,et al.  Should All Minimal Access Surgery Be Robot-Assisted? A Systematic Review into the Musculoskeletal and Cognitive Demands of Laparoscopic and Robot-Assisted Laparoscopic Surgery , 2022, Journal of Gastrointestinal Surgery.

[6]  J. Bissonette,et al.  Robotic Gynecologic Surgery: A Beginner's Guide to Becoming an Effective Bedside Assistant , 2021, Journal of minimally invasive gynecology.

[7]  Tara N. Cohen,et al.  Room Size Influences Flow in Robotic-Assisted Surgery , 2021, International journal of environmental research and public health.

[8]  Peter Gröpel,et al.  Visual attention during pediatric resuscitation with feedback devices: a randomized simulation study , 2021, Pediatric Research.

[9]  F. Migliorini,et al.  Severe intraoperative bleeding predicts the risk of perioperative blood transfusion after robot-assisted radical prostatectomy , 2021, Journal of Robotic Surgery.

[10]  Jane M. Young,et al.  Are Surgeons Working Smarter or Harder? A Systematic Review Comparing the Physical and Mental Demands of Robotic and Laparoscopic or Open Surgery , 2021, World Journal of Surgery.

[11]  Tara N. Cohen,et al.  Using Flow Disruptions to Examine System Safety in Robotic-Assisted Surgery: Protocol for a Stepped Wedge Crossover Design , 2021, JMIR research protocols.

[12]  Tara N. Cohen,et al.  Barriers to safety and efficiency in robotic surgery docking , 2021, Surgical Endoscopy.

[13]  Lauren R. Kennedy-Metz,et al.  Surgery Task Load Index in Cardiac Surgery: Measuring Cognitive Load Among Teams , 2020, Surgical innovation.

[14]  Renaldo C. Blocker,et al.  NASA-Task Load Index Differentiates Surgical Approach: Opportunities for Improvement in Colon and Rectal Surgery. , 2020, Annals of surgery.

[15]  M. Susan Hallbeck,et al.  Workload Differentiates Breast Surgical Procedures: NSM Associated with Higher Workload Demand than SSM , 2020, Annals of Surgical Oncology.

[16]  E. Dysvik,et al.  Anesthesia Professionals' Perspectives of Teamwork During Robotic-Assisted Surgery. , 2020, AORN journal.

[17]  M. Hallbeck,et al.  Human factors in robotic assisted surgery: Lessons from studies 'in the Wild'. , 2019, Applied ergonomics.

[18]  Eduardo Salas,et al.  Cardiac Measures of Cognitive Workload: A Meta-Analysis , 2019, Hum. Factors.

[19]  Z. Khorgami,et al.  The cost of robotics: an analysis of the added costs of robotic-assisted versus laparoscopic surgery using the National Inpatient Sample , 2018, Surgical Endoscopy.

[20]  K. Catchpole,et al.  Effects of Flow Disruptions on Mental Workload and Surgical Performance in Robotic-Assisted Surgery , 2018, World Journal of Surgery.

[21]  M. Zenati,et al.  Systematic review of measurement tools to assess surgeons' intraoperative cognitive workload , 2018, The British journal of surgery.

[22]  K. Guru,et al.  Improving Teamwork: Evaluating Workload of Surgical Team During Robot-assisted Surgery. , 2017, Urology.

[23]  A. Park,et al.  Intraoperative "Micro Breaks" With Targeted Stretching Enhance Surgeon Physical Function and Mental Focus: A Multicenter Cohort Study. , 2017, Annals of surgery.

[24]  Y. Choi,et al.  Robotic nurse duties in the urology operative room: 11 years of experience , 2017, Asian journal of urology.

[25]  H. Kang,et al.  Perioperative Nurses’ Work Experience With Robotic Surgery: A Focus Group Study , 2016, Computers, informatics, nursing : CIN.

[26]  R. Lyons,et al.  Quantifying Intraoperative Workloads Across the Surgical Team Roles: Room for Better Balance? , 2016, World Journal of Surgery.

[27]  Mark R. Wilson,et al.  Surgeons’ display reduced mental effort and workload while performing robotically assisted surgical tasks, when compared to conventional laparoscopy , 2015, Surgical Endoscopy.

[28]  Prithima R Mosaly,et al.  Relating physician's workload with errors during radiation therapy planning. , 2014, Practical radiation oncology.

[29]  Prithima R Mosaly,et al.  Subjective and objective quantification of physician's workload and performance during radiation therapy planning tasks. , 2013, Practical radiation oncology.

[30]  Mark R. Wilson,et al.  Development and Validation of a Surgical Workload Measure: The Surgery Task Load Index (SURG-TLX) , 2011, World Journal of Surgery.

[31]  P. Scardino,et al.  Prostate size is associated with surgical difficulty but not functional outcome at 1 year after radical prostatectomy. , 2009, The Journal of urology.

[32]  S. Hart,et al.  Development of NASA-TLX (Task Load Index): Results of Empirical and Theoretical Research , 1988 .