# Eye movements as predictors of student experiences during nursing simulation learning events

**Authors:** Madison Lee Mason, Caleb Vatral, Clayton Cohn, Eduardo Davalos, Mary Ann Jessee, Gautam Biswas, Daniel T. Levin

PMC · DOI: 10.1186/s41235-025-00640-7 · 2025-07-01

## TL;DR

The study shows that eye movement patterns during nursing simulations can reveal how students process information and interact with others.

## Contribution

The research introduces a method of analyzing eye movements within participant-defined events to better understand cognitive processes in real-world learning.

## Key findings

- Longer fixation duration and larger pupil diameter predicted better teamwork and communication ratings.
- Greater saccade amplitude was linked to higher self-efficacy perceptions.
- Fixation duration increased at the start of events, indicating an initial encoding phase.

## Abstract

Although the “eye-mind link” hypothesis posits that eye movements provide a direct window into cognitive processing, linking eye movements to specific cognitions in real-world settings remains challenging. This challenge may arise because gaze metrics such as fixation duration, pupil size, and saccade amplitude are often aggregated across timelines that include heterogeneous events. To address this, we tested whether aggregating gaze parameters across participant-defined events could support the hypothesis that increased focal processing, indicated by greater gaze duration and pupil diameter, and decreased scene exploration, indicated by smaller saccade amplitude, would predict effective task performance. Using head-mounted eye trackers, nursing students engaged in simulation learning and later segmented their simulation footage into meaningful events, categorizing their behaviors, task outcomes, and cognitive states at the event level. Increased fixation duration and pupil diameter predicted higher student-rated teamwork quality, while increased pupil diameter predicted judgments of effective communication. Additionally, increased saccade amplitude positively predicted students’ perceived self-efficacy. These relationships did not vary across event types, and gaze parameters did not differ significantly between the beginning, middle, and end of events. However, there was a significant increase in fixation duration during the first five seconds of an event compared to the last five seconds of the previous event, suggesting an initial encoding phase at an event boundary. In conclusion, event-level gaze parameters serve as valid indicators of focal processing and scene exploration in natural learning environments, generalizing across event types.

## Full-text entities

- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12214182/full.md

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Source: https://tomesphere.com/paper/PMC12214182