# A chill brain-music interface for enhancing music chills with personalized playlists

**Authors:** Sotaro Kondoh, Takahide Etani, Yuna Sakakibara, Yasushi Naruse, Yasuhiko Imamura, Takuya Ibaraki, Shinya Fujii

PMC · DOI: 10.1016/j.isci.2025.114508 · iScience · 2025-12-19

## TL;DR

A brain-music interface uses EEG to create personalized playlists that enhance music-induced chills and pleasure.

## Contribution

A novel neurofeedback system that adapts music selection to individual neural activity to amplify emotional engagement.

## Key findings

- EEG-updated playlists caused more chills and higher pleasure ratings than non-EEG playlists.
- Real-time neural feedback improved music recommendations for emotional impact.
- Personalized playlists based on brain activity outperformed those based only on acoustic features.

## Abstract

Music chills are physical sensations, such as goosebumps, linked to intense pleasure and engage the brain’s reward system. However, individual differences in music preferences and neural responses make it difficult to enhance these experiences consistently. To address this issue, we developed the chill brain-music interface (C-BMI), a neurofeedback system that uses an in-ear electroencephalogram (EEG) to create personalized playlists. For each participant, we built two regression models: one predicting pleasure from acoustic features, and another decoding pleasure from EEG data. Using these models, four playlists were generated: two designed to enhance pleasure and two to reduce it. In each pair, one playlist incorporated real-time EEG-based updates, whereas the other relied solely on acoustic features. The EEG-updated pleasure-enhancing playlist elicited more subjective chills and higher pleasure ratings than the pleasure-reducing playlists, suggesting that adapting music selection to individual neural activities can amplify chills and emotional engagement with music.

•Musical pleasure was decoded from an in-ear electroencephalogram•A prediction model of pleasure was updated using the EEG and acoustic data•The model ranked songs by predicted pleasure, and a song was recommended•A playlist of top-ranked songs evoked more music chills and higher pleasure

Musical pleasure was decoded from an in-ear electroencephalogram

A prediction model of pleasure was updated using the EEG and acoustic data

The model ranked songs by predicted pleasure, and a song was recommended

A playlist of top-ranked songs evoked more music chills and higher pleasure

Cognitive neuroscience; Psychology

## Full-text entities

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

## Full text

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## Figures

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## References

79 references — full list in the complete paper: https://tomesphere.com/paper/PMC12809743/full.md

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Source: https://tomesphere.com/paper/PMC12809743