Eye-Tracking Technology to Determine Procedural Proficiency in Ultrasound-Guided Regional Anesthesia

Eye-Tracking Technology to Determine Procedural Proficiency in Ultrasound-Guided Regional Anesthesia

Eye-tracking measures attention patterns, which may offer insight into evaluating procedural expertise. The purpose of this study was to determine the feasibility of using eye tracking to assess visual fixation patterns when performing an ultrasound-guided regional anesthesia procedure and to assess...

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Bibliographic Details
Published in:The journal of education in perioperative medicine Vol. 24; no. 1; p. E684
Main Authors: Andrew Wright, G, Patel, Rahool, Perez-Edgar, Koraly, Fu, Xiaoxue, Brown, Kayla, Adhikary, Sanjib, Zurca, Adrian
Format: Journal Article
Language:English
Published: United States Society for Education in Anesthesia 01-01-2022
Subjects:
Original Research
clinical competency
interventional ultrasound
Regional anesthesia
medical education
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Summary:Eye-tracking measures attention patterns, which may offer insight into evaluating procedural expertise. The purpose of this study was to determine the feasibility of using eye tracking to assess visual fixation patterns when performing an ultrasound-guided regional anesthesia procedure and to assess for differences between experienced, intermediate, and novice practitioners. Participants performed an ultrasound-guided sciatic nerve block 3 times on a fresh cadaver model while wearing eye-tracking glasses. Gaze fixation and dwell time on each location were compared between participants. Eye-gaze paths were used to derive a measure of entropy, or how often participants switched gaze fixations between locations. Five attending anesthesiologists, 5 third-year anesthesiology residents with prior ultrasound-guided regional anesthesia experience, and 5 medical students completed the study. Individuals with more experience were more likely to successfully perform the sciatic nerve block (5/5 attendings, 5/5 residents, 0/5 students; = .002) and performed the procedure faster (average: attendings 62.6 seconds, residents 106.4 seconds, students 134.4 seconds; = .089). Participants were progressively faster with practice (Trial 1: 41.8 seconds, Trial 2: 29.2 seconds, Trial 3: 28.9 seconds; = .012), and the average number of eye shifts per trial decreased from 10.8 to 6.5 to 6 ( = .010). Attending physicians spent significantly less time fixating on the ultrasound monitor compared to trainees ( = .035). Average visual entropy progressively decreased from Trial 1 to Trial 3 ( = .03) and with greater experience ( = .15). There was a strong correlation between entropy and time on task (r(16) = 0.826, = .001). Experienced providers make fewer back-and-forth visual fixations, spend less time in the procedure, and demonstrate less entropy during ultrasound-guided regional anesthesia procedures. Mobile eye-tracking has the potential to provide additional objective measures of performance that may help not only determine procedural competence but also distinguish between levels of proficiency.
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ISSN:2333-0406
2333-0406
DOI:10.46374/VolXXIV_Issue1_Zurca