Ever heard just a snippet of a song and instantly known what comes next? Or picked up the rhythm of a chorus after just a few notes? New research from the Center for Music in the Brain at Aarhus University and the Centre for Eudaimonia and Human Flourishing at the University of Oxford has uncovered what happens in our brain when we recognise and predict musical sequences.
When we turn on the radio and our favourite song starts playing, our brain reacts in a complex pattern, where areas that process sound, emotions, and memory are activated. In a feedforward and feedback loop, our auditory cortex first responds to the sounds and sends information to other brain areas, like the hippocampus, which is involved in memory, and the cingulate gyrus, which helps with attention and emotional processing. This process helps us recognise songs quickly and predict what comes next, making listening to music an enjoyable and familiar experience.
Knowing how our brain reacts to music can play a pivotal role in understanding our cognitive functions, explains one of the leading researchers behind the study, Associate Professor Leonardo Bonetti from the Center for Music in the Brain at Aarhus University:
“Our research provides detailed insights into the brain's ability to process and predict music and contributes to our broader understanding of cognitive functions. This could make a difference for studying brain health, as it offers potential pathways to explore how ageing and diseases like dementia affect cognitive processing over time.”
In fact, understanding how our brain rocks along to Bohemian Rhapsody or reacts to a childhood classic may help researchers detect dementia in the future.
“In the long run, these findings could inform the development of screening tools for detecting the individual risk of developing dementia just using the brain activity of people while they listen to and recognise music.”
In the study, the researchers measured the brainwaves of 83 people as they listened to music, and they will follow up with additional studies, says Leonardo Bonetti.
“Future studies could explore how these brain mechanisms change with age or in individuals with cognitive impairments. Understanding these processes in more detail could lead to new interventions for improving cognitive function and quality of life for people with neurological conditions.”
Behind the research - more information
- Method: Basic research
- Collaborators: Aarhus University and the University of Oxford, with additional contributions from the Massachusetts Institute of Technology (MIT) and the University of Bologna
- External funding: The key foundations are the Danish National Research Foundation, Lundbeck Foundation and Carlsberg Foundation
- Information on any impartiality issues: Nothing to declare
- Information on deviations from the principle that the research result is based on a peer reviewed article published in a scientific journal.: The article has been peer reviewed and information about such process is freely available in the article
- Read more in the scientific paper
Contact
Associate Professor, Leonardo Bonetti
Center for Music in The Brain, Department of Clinical Medicine, Health, Aarhus University
Mail: leonardo.bonetti@clin.au.dk
Journal
Nature Communications
Subject of Research
People
Article Title
Spatiotemporal brain hierarchies of auditory memory recognition and predictive coding
Article Publication Date
21-May-2024
COI Statement
Nothing to declare