Published on in Vol 10, No 2 (2021): February

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/25284, first published .
Using Flow Disruptions to Examine System Safety in Robotic-Assisted Surgery: Protocol for a Stepped Wedge Crossover Design

Using Flow Disruptions to Examine System Safety in Robotic-Assisted Surgery: Protocol for a Stepped Wedge Crossover Design

Using Flow Disruptions to Examine System Safety in Robotic-Assisted Surgery: Protocol for a Stepped Wedge Crossover Design

Journals

  1. Catchpole K, Cohen T, Alfred M, Lawton S, Kanji F, Shouhed D, Nemeth L, Anger J. Human Factors Integration in Robotic Surgery. Human Factors: The Journal of the Human Factors and Ergonomics Society 2024;66(3):683 View
  2. Cohen T, Anger J, Kanji F, Zamudio J, DeForest E, Lusk C, Avenido R, Yoshizawa C, Bartkowicz S, Nemeth L, Catchpole K. A Novel Approach for Engagement in Team Training in High-Technology Surgery: The Robotic-Assisted Surgery Olympics. Journal of Patient Safety 2022;18(6):570 View
  3. Alfred M, Del Gaizo J, Kanji F, Lawton S, Caron A, Nemeth L, Alekseyenko A, Shouhed D, Savage S, Anger J, Catchpole K, Cohen T. A better way: training for direct observations in healthcare. BMJ Quality & Safety 2022;31(10):744 View
  4. Zamudio J, Kanji F, Lusk C, Shouhed D, Sanchez B, Catchpole K, Anger J, Cohen T. Identifying Workflow Disruptions in Robotic-Assisted Bariatric Surgery: Elucidating Challenges Experienced by Surgical Teams. Obesity Surgery 2023;33(7):2083 View
  5. Zamudio J, Woodward J, Kanji F, Anger J, Catchpole K, Cohen T. Demands of surgical teams in robotic-assisted surgery: An assessment of intraoperative workload within different surgical specialties. The American Journal of Surgery 2023;226(3):365 View
  6. Alotni M, Fernandez R, Chu G, Guilhermino M. How nurse researchers can use stepped-wedge design and analysis. Nurse Researcher 2024;32(4):29 View