Deciphering Daydreams: How Sharp-Wave Ripples Shape Our Imaginative Minds

Brain Waves Activity Daydream Art Concept

Researchers have identified sharp-wave ripples in the hippocampus as a key brain activity linked to self-generated thoughts like daydreaming. By studying epilepsy patients, the team found that these brain patterns are connected with vivid and imaginative thoughts, suggesting a broader impact on conditions such as autism and ADHD. Credit: SciTechDaily.com

Researchers from Osaka University find that mind wandering, especially when associated with less pleasurable and more vivid and imaginative self-generated thoughts, is associated with a specific pattern of brain activity linked to memory and sleep.

Part of what makes us human is our ability to think about people, places, or events that aren’t currently present—but we still don’t know exactly how our brains do this. Now, researchers from Osaka University have identified a specific kind of brain activity linked with these kinds of thoughts, such as when we daydream or let our minds wander.

Sharp-Wave Ripples and Memory

When we think about things that aren’t actually happening, like when we daydream, the brain is essentially making up information rather than receiving and processing it—for this reason, researchers classify it as a “self-generated” brain state.

In a recent study published today (May 22) in the scientific journal Nature Communications, researchers from Japan have identified that these self-generated states are associated with a specific pattern of brain activity known as “sharp-wave ripples.” These ripples start in the hippocampus, a brain region that is essential for making and retrieving memories.

Epilepsy Patient With Intracranial Electrodes Implanted in the Hippocampus

An epilepsy patient with intracranial electrodes implanted in the hippocampus answering questions about the content of the patient’s thoughts while measuring electroencephalography. Credit: 🄫 Medical Fig.

Methodology of Brain Activity Study

To study the relationship between these sharp-wave ripples and different kinds of thoughts, the research team made use of the information that’s collected when patients with drug-resistant epilepsy are about to undergo surgery (to remove the starting point of the epileptic activity in the brain). Intracranial electrodes are implanted in the hippocampus in these patients and the activity in the brain is continuously tracked, so that the surgeons can identify the epileptic region and be sure that they aren’t removing a part of the brain that will have unexpected consequences.

“We asked patients undergoing this electroencephalographic brain monitoring for 10 days to complete an hourly questionnaire relating to their thoughts and emotions,” says lead author of the study Takamitsu Iwata. “We mainly wanted to see if we could identify any links between the recorded brain activity and how the patients were feeling and thinking at the time.”

Thoughts and Feelings Questionnaire

Questionnaire used to survey the content of thoughts and feelings. Credit: adapted from Iwata et al., Nature Communications, Hippocampal sharp-wave ripples correlate with periods of naturally occurring self-generated thoughts in humans; DOI: 10.1038/s41467-024-48367-1; licensed under CC BY 4.0

Findings on Brain Activity and Thought Patterns

In general, the sharp-wave ripples from the hippocampus were generated in patients at night (presumably during sleep). Furthermore, the research team noticed a link between increased sharp-wave activity and thoughts that were more vivid or imaginative and less desirable or task-related, i.e. when their minds wandered.

“Notably, although our study was conducted entirely on people with epilepsy, we did our best to remove epilepsy-related data so that the results are applicable to healthy populations,” explains Takufumi Yanagisawa, senior author of the study. “The similarities between many of our results and those of previous studies, using other species or methods, indicate that our approach worked well.”

Word Cloud Sharp-Wave Ripples

The larger the letters in the word cloud, the greater the effect on the sharp-wave ripples. Credit: Adapted from Iwata et al., Nature Communications, Hippocampal sharp-wave ripples correlate with periods of naturally occurring self-generated thoughts in humans; DOI: 10.1038/s41467-024-48367-1; licensed under CC BY 4.0

Implications for Understanding Brain Functions

There is increasing evidence that self-generated brain states, including mind wandering and intrusive thoughts, have complex links with intelligence, autism, attention deficit disorder, and happiness/well-being. A better understanding of the brain regions and activity that cause these states may therefore help people with a range of different conditions.

Reference: “Hippocampal sharp-wave ripples correlate with periods of naturally occurring self-generated thoughts in humans” 22 May 2024, Nature Communications.
DOI: 10.1038/s41467-024-48367-1

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