Adam D Shellito1, Sonam Kapadia1, Amy H Kaji2,3, Cynthia M Tom1, Christine Dauphine1,2, Beverley A Petrie4,5. 1. Department of Surgery, Harbor-UCLA Medical Center, 1000 W Carson St. Box 25, Torrance, CA, 90509, USA. 2. Lundquist Institute of Biomedical Research, Harbor-UCLA Medical Center, Torrance, CA, USA. 3. Department of Emergency Medicine, Harbor-UCLA Medical Center, Torrance, CA, USA. 4. Department of Surgery, Harbor-UCLA Medical Center, 1000 W Carson St. Box 25, Torrance, CA, 90509, USA. BPetrie@dhs.lacounty.gov. 5. Lundquist Institute of Biomedical Research, Harbor-UCLA Medical Center, Torrance, CA, USA. BPetrie@dhs.lacounty.gov.
Abstract
BACKGROUND: Robotic surgery (RS) has been increasingly incorporated into colorectal surgery (CRS) training. The degree to which RS has been integrated into CRS residency training is not well described. METHODS: A web-based survey was sent to all 2019 accredited CRS residency programs within the United States and Canada. Program directors (PDs) were queried on how robotic surgery had been integrated into their program, specifics on RS curriculum and opinions on RS training during general surgery residency. We compared survey responses by program type (university-based, university-affiliated programs, or independent programs) and by geographic region. In addition, a chi-square test was used to evaluate differences in survey responses with respect to robotic curriculum components. RESULTS: Of 66 programs, 42 (64%) responded to the survey. Of the responding programs, 35 (83%) were university-based or university-affiliated, while 7 (17%) were independent. Most programs were in the Midwest (33%). Forty-one (98%) reported having a surgical robot in use at their institution, with 95% reporting active participation of CRS residents in RS. While 74% of programs have a formal RS training curriculum for CRS residents, there was considerable variability in the curriculum elements employed by each institution, and the differences in proportions of these elements were significant (χ2 99.8, p < 0.001). The median operative approach to abdominopelvic cases was estimated to be 33% robotic, 40% laparoscopic and 20% open. There were no significant differences in the survey responses between university/university-affiliated and independent programs (p > 0.05) or among the different regions (p > 0.05). CONCLUSIONS: This study demonstrated that almost all CRS residencies have integrated RS and have trainees operating at the robotic console. Most programs have a robotics curriculum and there are expanding indications for RS within CRS. This expansion calls for discussion on implementation of training standards such as curricular requisites, baseline competency assessments, and definitions of minimum case requirements to ensure adequate training.
BACKGROUND: Robotic surgery (RS) has been increasingly incorporated into colorectal surgery (CRS) training. The degree to which RS has been integrated into CRS residency training is not well described. METHODS: A web-based survey was sent to all 2019 accredited CRS residency programs within the United States and Canada. Program directors (PDs) were queried on how robotic surgery had been integrated into their program, specifics on RS curriculum and opinions on RS training during general surgery residency. We compared survey responses by program type (university-based, university-affiliated programs, or independent programs) and by geographic region. In addition, a chi-square test was used to evaluate differences in survey responses with respect to robotic curriculum components. RESULTS: Of 66 programs, 42 (64%) responded to the survey. Of the responding programs, 35 (83%) were university-based or university-affiliated, while 7 (17%) were independent. Most programs were in the Midwest (33%). Forty-one (98%) reported having a surgical robot in use at their institution, with 95% reporting active participation of CRS residents in RS. While 74% of programs have a formal RS training curriculum for CRS residents, there was considerable variability in the curriculum elements employed by each institution, and the differences in proportions of these elements were significant (χ2 99.8, p < 0.001). The median operative approach to abdominopelvic cases was estimated to be 33% robotic, 40% laparoscopic and 20% open. There were no significant differences in the survey responses between university/university-affiliated and independent programs (p > 0.05) or among the different regions (p > 0.05). CONCLUSIONS: This study demonstrated that almost all CRS residencies have integrated RS and have trainees operating at the robotic console. Most programs have a robotics curriculum and there are expanding indications for RS within CRS. This expansion calls for discussion on implementation of training standards such as curricular requisites, baseline competency assessments, and definitions of minimum case requirements to ensure adequate training.
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