# Reduced task adaptation and contextual awareness in autistic adults during facial emotion recognition: evidence from mixed-effects modeling and automated facial analysis

**Authors:** Simon Kirsch, Hanna Drimalla, William Saakyan, Bastian Elmar Alexander Sajonz, Justus Gritzmann, Simon Maier, Thomas Fangmeier, Muyu Lin, Simón Guendelman, Christian Kaufmann, Isabel Dziobek, Ludger Tebartz van Elst

PMC · DOI: 10.1186/s13229-026-00711-6 · 2026-03-11

## TL;DR

Autistic adults show reduced task adaptation and use of contextual cues during facial emotion recognition compared to non-autistic adults, according to a study using mixed-effects modeling and automated facial analysis.

## Contribution

The study introduces a novel integration of mixed-effects modeling and automated facial analysis to explore FER differences in autistic adults.

## Key findings

- Autistic participants had lower accuracy and slower response times compared to non-autistic participants.
- Autistic individuals showed reduced task adaptation and less use of contextual cues in FER.
- Social-cognitive traits influenced how contextual ambiguity affected FER accuracy in autistic subjects.

## Abstract

Despite significant advances in understanding facial emotion recognition (FER) in autistic adults in recent decades, the mechanisms underlying FER difficulties in individuals with autism remain unclear, with inconsistent findings across studies. A key limitation may be the reliance on aggregate accuracy scores, which overlook item- and subject-level variability. Here, we investigated the effects of task adaptation and stimulus properties on FER performance in autistic and non-autistic adults using mixed-effects modelling.

A total of 120 autistic and 116 non-autistic participants completed the Berlin Emotion Recognition Test 2. Performance was analyzed on a trial-by-trial basis, considering trial number, stimulus properties—derived from automated facial analysis—and their interactions with diagnostic group. Response times were analyzed using mixed-effects linear regression models, while accuracy was analyzed using mixed-effects logistic regression models.

Compared with non-autistic participants, autistic participants demonstrated lower overall accuracy and slower responses, accompanied by significantly reduced task adaptation. Contextual ambiguity of stimulus faces moderated group differences in FER accuracy, with non-autistic subjects showing greater use of contextual information. Social-cognitive traits further moderated the effect of contextual ambiguity in autistic subjects.

Our findings are specific to the design and stimulus material of the Berlin Emotion Recognition Test 2 and may not generalize to other FER tasks. Furthermore, our sample did not include individuals with intellectual disabilities, limiting generalizability across the autism spectrum. Lastly, the reliability of stimulus property estimates derived from automated facial analysis may require validation on a larger sample of stimulus faces.

Our findings reveal that differences in task adaptation and contextual cue processing underlie FER performance differences in individuals with autism, emphasizing the importance of participant- and item-level analysis. These results may inform future study designs and highlight the advantages of integrating automated FER with mixed-effects modeling in autism research.

The online version contains supplementary material available at 10.1186/s13229-026-00711-6.

## Linked entities

- **Diseases:** autism (MONDO:0005260)

## Full-text entities

- **Diseases:** autistic (MESH:D001321)

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12983792/full.md

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Source: https://tomesphere.com/paper/PMC12983792