ABSTRACT
Training the modern ophthalmic surgeon is a challenging process. Microsurgical education can benefit from innovative methods to practice surgery in low-risk simulations, assess and refine skills in the operating room through video content analytics, and learn at a distance from experienced surgeons. Developments in emerging technologies may allow us to pursue novel forms of instruction and build on current educational models. Artificial intelligence, which has already seen numerous applications in ophthalmology, may be used to facilitate surgical tracking and evaluation. Within immersive technology, growth in the space of virtual reality head-mounted displays has created intriguing possibilities for operating room simulation and observation. Here, we explore the applications of these technologies and comment on their future in ophthalmic surgical education.
Subject(s)
Artificial Intelligence , Microsurgery/education , Ophthalmology/education , Virtual Reality , Clinical Competence , Education, Medical, Graduate , HumansSubject(s)
COVID-19 , Learning Curve , Mammaplasty/education , Mammaplasty/methods , Microsurgery/education , Quarantine , HumansSubject(s)
COVID-19 , Microsurgery , Motor Skills , Physical Distancing , Teaching , COVID-19/epidemiology , COVID-19/prevention & control , Clinical Competence , Humans , Infection Control/methods , Microsurgery/education , Microsurgery/instrumentation , Microsurgery/methods , Microsurgery/standards , SARS-CoV-2Subject(s)
COVID-19 , Education , Fellowships and Scholarships , Infection Control/methods , Microsurgery/education , COVID-19/epidemiology , COVID-19/prevention & control , Education/methods , Education/trends , Fellowships and Scholarships/methods , Fellowships and Scholarships/organization & administration , Fellowships and Scholarships/trends , Humans , London/epidemiology , Organizational Innovation , SARS-CoV-2 , Surveys and QuestionnairesABSTRACT
BACKGROUND: During the current global crisis unleashed by the severe acute respiratory syndrome coronavirus 2 outbreak, surgical departments have considerably reduced the amount of elective surgeries. This decrease leads to less time in the surgical room to develop and improve the surgical skills of residents. In this study, we developed a training program to obtain and maintain microsurgical skills at home, using a smartphone camera and low-cost materials, affordable for everyone. METHODS: Using a smartphone camera as a magnification device, 6 participants performed 5 exercises (coloring grids, grouping colors, unraveling of a gauze, knots with suture threads, and tower of Hanoi), both with the dominant and with the nondominant hand, for 4 weeks. We compared performance at the beginning and at the end of the training process. Each participant filled out an anonymous survey. RESULTS: When we compared the performance at the beginning and at the end of the training process, we found significant improvements (P = 0.05) with the dominant as well as the nondominant hand in all the exercises. All participants were satisfied or very satisfied with the definition of the objectives of the training process, material availability, the exercises performed, the choice of the time to train, and general satisfaction with the training program. CONCLUSIONS: We developed a microsurgical skills training program to be performed at home, which can be easily reproduced. It allows residents to improve manual coordination skills and is regarded as a feasible adjunct for ongoing training for surgical residents.
Subject(s)
COVID-19/surgery , Microsurgery/education , Neurosurgical Procedures/education , SARS-CoV-2/pathogenicity , COVID-19/virology , Clinical Competence/statistics & numerical data , Disease Outbreaks , Female , Humans , Internship and Residency , Suture Techniques , SuturesABSTRACT
PURPOSE: To study the feasibility and efficacy of a new remote wet lab for microsurgical education using a corneal suturing task. SETTING: Department of Ophthalmology, University of California San Francisco, San Francisco, California, USA. DESIGN: Prospective randomized controlled study. METHODS: Ten ophthalmology residents were stratified by postgraduate year and randomized to perform a corneal suturing task consisting of placing the 4 cardinal sutures for a penetrating keratoplasty in porcine eyes with or without remote ophthalmology attending feedback. Subsequently, both groups repeated the same task without remote feedback to test whether initial remote feedback affected subsequent performance. Finally, the group without feedback was crossed over to repeat the same corneal suturing task with remote feedback. The effectiveness of the remote wet lab was assessed subjectively by survey and objectively by grading each suture pass. RESULTS: Resident-reported comfort with corneal suturing improved significantly after the remote wet lab for all residents. Residents and attendings rated the remote wet lab as equally or more effective compared with previous in-person wet labs and overall effective in corneal suturing. Attendings rated the remote wet lab as effective in multiple domains of microsurgical education using a modified microsurgical global rating scale. Objective corneal suturing performance was similar for both groups. CONCLUSIONS: The remote wet lab was feasible and effective for training ophthalmology residents in corneal suturing. This represents a new social distancing compliant platform for microsurgical education during the COVID-19 pandemic.