Development and Validation of a Laryngeal Microsurgery Simulation Training System for Otolaryngology Residents.

Abstract

This study aims to create a synthetic laryngeal microsurgery simulation model and training program; to assess its face, content, and construct validity; and to review the available phonomicrosurgery simulation models in the literature. Nonrandomly assigned control study. Simulation training course for the otolaryngology residency program at Pontificia Universidad Católica de Chile. Resident (postgraduate year 1 [PGY1]/PGY2) and expert groups were recruited. A laryngeal microsurgery synthetic model was developed. Nine tasks were designed and assessed through a set of programmed exercises with increasing difficulty, to fulfill 5 surgical competencies. Imperial College Surgical Assessment Device sensors applied to the participants'hands measured time and movements. The activities were video-recorded and blindly assessed by 2laryngologists using a specific and global rating scale (SRSand GRS). A 5-point Likert survey assessing validity was completed by experts. Eighteen participants were recruited (14 residentsand 4 experts). Experts performed significantly better than residents in the SRS (p = .003), and GRS (p = .004). Internal consistency was demonstrated for the SRS (α = .972, p < .001). Experts had a shorter execution time (p = .007), and path length with the right hand (p = .04). The left hand did not show significant differences. The survey assessing validity resulted in a median 36 out of 40 points score for face validity; and 43 out of 45 points score, for global content validity. The literature review revealed 20 available phonomicrosurgery simulation models, only 6 with construct validity. The face, content, and construct validity of the laryngeal microsurgery simulation training programwere established. It could be replicated and incorporated into residents' curricula.