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Home Exclusive Cognitive Science

Scientists sheds light on how our brains create mental "chapters"
with new event segmentation study

by Eric W. Dolan
December 5, 2024
in Cognitive Science, Neuroimaging
(Photo credit: DALL*E)

(Photo credit: DALL*E)

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A new study published in Current Biology sheds light on how the brain
divides the continuous flow of information in our daily lives into
discrete, meaningful events. The findings reveal that these
divisions--similar to starting a new chapter in a book--aren't solely
prompted by changes in our surroundings. Instead, they can be
influenced by internal scripts based on past experiences and current
goals. This active process of segmentation reflects how the brain
prioritizes information to fit what matters most to us at any given
moment.

Scientists have long been intrigued by how we process the endless
stream of events in our daily lives and make sense of them as
distinct moments. This segmentation process is essential for
understanding the world, updating mental models, and forming lasting
memories. But what prompts the brain to mark the boundary between one
event and the next?

One possibility is that physical changes in the environment, like
moving from an outdoor space into a building, signal the start of a
new "chapter." Another hypothesis suggests that these boundaries are
shaped by internal "scripts"--mental templates formed through
experience. These scripts allow the brain to filter and prioritize
information based on what aligns with current objectives. For
example, when dining at a restaurant, an experienced diner might
focus on events such as ordering food and its arrival, while ignoring
other background changes.

The researchers sought to test whether the brain actively constructs
these boundaries by prioritizing internal scripts over environmental
cues.

"We wanted to see how the brain processed realistic situations, with
complex events that unfolded over multiple minutes," said study
author Chris Baldassano, an associate professor of psychology at
Columbia University and director of the Dynamic Perception and Memory
Lab.

"Recent work from my lab and others has found that there are parts of
the brain (including a group of regions called the default mode
network, the DMN) that usually turn off during a typical neuroscience
study in which we flash unrelated pictures or words in a sequence,
but that are actually highly engaged when we present people with a
meaningful experience like a movie or story. We were hoping to
understand what information about the narrative is being tracked in
the DMN (and especially in the medial prefrontal cortex), and whether
a story is processed differently depending on what you are currently
paying attention to."

To explore this, the researchers designed 16 audio narratives that
each combined two overlapping "scripts." One script was
location-based (e.g., a restaurant, airport, grocery store, or
lecture hall), while the other focused on social interactions (e.g.,
a breakup, a marriage proposal, a business deal, or a chance romantic
encounter). Each story progressed through four distinct events for
each script, interwoven in such a way that the boundaries for one
script did not coincide with those of the other. This setup allowed
researchers to test how attention to different scripts influenced
participants' perceptions of event boundaries and the corresponding
brain activity.

"The stories were created by Alexandra De Soares, the member of my
lab who led this study, such that each one was a combination of two
'scripts' (i.e. common event sequences)," Baldassano explained. "For
example, a story might be about a marriage proposal in a restaurant,
and proceed through the stages of eating at a restaurant (being
seated, ordering, ...) while the events of the proposal are happening
at the same time (getting out the ring, proposing, reaction of the
partner, ...)."

In the first part of the study, conducted in an fMRI scanner, 36
participants listened to these narratives while their brain activity
was monitored. Before listening to each story, participants were
"primed" by being given a set of questions related to one of the
scripts, such as location-specific details (e.g., "What does each
person order?" in a restaurant) or social-specific details (e.g.,
"What is the initial reason stated for the breakup?"). This priming
encouraged participants to focus on one script over the other,
effectively shaping their mental priorities during the task. While
listening to the story, participants' brain activity was measured,
particularly in regions of the DMN, which are known to process
abstract and meaningful information.

In the second part of the study, conducted online, over 300
participants listened to the same narratives. However, instead of
listening continuously, they heard the stories sentence by sentence
and were asked to decide after each sentence whether it marked the
beginning of a new event. Like in the fMRI study, participants were
primed to focus on either the location script or the social script,
or they were not primed at all. After listening, participants
completed a memory test where they answered questions about story
details, both for the script they were primed to focus on and for the
other, unprimed script.

The findings revealed that participants' segmentation of events and
their brain activity patterns were strongly influenced by the script
they were primed to prioritize. In the online experiment,
participants primed with the location script were more likely to
identify new events at moments corresponding to location-based
transitions, such as entering a restaurant or moving through security
at an airport. Similarly, participants primed with the social script
were more attuned to changes in social interactions, though this
effect was less pronounced than for location-based events.

"I was surprised to find that telling participants to attend to
social-related scripts (such as the marriage proposal) didn't have
much of an effect on how chapters were created (compared to the
baseline condition in which participants just listened to the stories
without specific instructions)," Baldassano told PsyPost.
"Instructing participants to focus on location-related scripts (such
as the restaurant) caused much larger changes. In retrospect, this
makes some sense: by default, listeners are more likely to focus on
the characters and their social interactions, so we only saw big
changes when we asked them to approach the story from an unusual
perspective."

Priming also improved memory recall: participants remembered details
relevant to their primed script more accurately than those from the
unprimed script. This demonstrated that focusing attention on
specific types of information not only shaped perception but also
enhanced memory encoding.

In the fMRI study, brain activity in the DMN, particularly in the
medial prefrontal cortex, aligned with the boundaries relevant to the
primed script. For example, when participants were primed to focus on
location details, neural transitions in this region coincided with
location-based event boundaries in the narratives. These findings
suggest that the brain actively constructs event boundaries based on
internal priorities rather than passively responding to environmental
cues.

"For decades, researchers in cognitive psychology have been
interested in how our experiences (which unfold continuously over
time) get divided into individual chapters, a cognitive process
referred to as 'event segmentation,'" Baldassano said. "The major new
finding in this study is that these chapters don't just come from the
way the story is written. People are not just listening for the
author of a story to tell them when a new event is starting; the
brain is making active choices about when to start a new chapter that
depend on your current frame of mind and goals."

The study's design provided a controlled look at how internal scripts
influence event segmentation, but it had limitations. The stories
used followed the scripts closely, with no major deviations, but
real-life experiences are often less predictable.

"In this study, the events of the stories perfectly matched the
scripts that people had: for example, in the restaurant stories
people always got the food that they ordered," Baldassano noted. "My
lab and others are currently trying to understand what happens when
there is a mismatch between your expectations and an actual
experience, such as if the waiter threw a glass of water in a guest's
face. What impact does this have on how these experiences would be
organized in memory?"

The researchers are also analyzing data on how participants'
perspectives during listening influenced their memory recall. This
ongoing work aims to deepen our understanding of how real-world
experiences are divided into distinct events and stored in memory.

"We are still working to get a complete picture of the ways that
brain regions work together to create memories for realistic,
familiar events," Baldassano said. "Specifically, we are interested
in how and when DMN regions like the medial prefrontal cortex send
information to and from the long-term memory system in the
hippocampus. For example, my lab is currently running studies with
patients that have implanted electrodes (as part of a surgical
procedure for epilepsy) so that we can directly measure neural
activity in the memory system."

The study, "Top-down attention shifts behavioral and neural event
boundaries in narratives with overlapping event scripts," was
authored by Alexandra De Soares, Tony Kim, Franck Mugisho, Elen Zhu,
Allison Lin, Chen Zheng, and Christopher Baldassano.

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