Overthinking could be related to the constant back-and-forth between the brain's fear-processing centre or amygdala and the region governing social behaviour, according to a new study.
Reasoning
about another person's thoughts and intentions is a core aspect of social
cognition and relies on one's social cognitive network. It connects brain
regions working together to support a person's ability to understand and
interact with others.
"Previous
studies have found co-activation of the amygdala and social cognitive network,
but our study is novel because it shows the communication is always
happening," senior author Rodrigo Braga, an assistant professor of
neurology at Northwestern University, US, said.
The
constant back-and-forth is possibly why moments after leaving a party, one is
suddenly filled with intrusive thoughts such as ‘Did they think I talked too
much?’ or ‘Did my joke offend them?’, the researchers said.
To
better understand how humans evolved to become so skilled at thinking about
what's happening in other peoples' minds, the team looked at functional
magnetic resonance imaging (fMRI) brain scans of six people. The fMRI measures
brain activity by detecting changes in blood oxygen levels.
"The
results suggest that social cognitive functions emerge through coordinated
activity between internal circuits of the amygdala and a broader distributed
association network and indicate the medial nucleus (located within the
amygdala) may play an important role in social cognition in humans,"
authors wrote in the study published in the journal Science Advances.
This
link to the amygdala helps shape the function of the social cognitive network
by giving it access to the amygdala's role in processing emotionally important
content, the researchers said.
The
findings could have implications for treating psychiatric conditions, such as
anxiety and depression, they said. Both anxiety and depression involve amygdala
hyperactivity, which can contribute to producing excessively emotional
responses and impaired emotional regulation, author Donnisa Edmonds, a PhD
candidate of neuroscience at Northwestern University, said.
The
researchers explained that currently, someone with either condition could
receive deep brain stimulation for treatment, but since the amygdala is located
deep within the brain — directly behind the eyes — it means having an invasive
surgical procedure.
Transcranial
magnetic stimulation (TMS), which uses magnetic fields to arouse neurons in the
brain, is a much less-invasive procedure and could benefit from the study's
findings to improve treatment, they said.
"Through
this knowledge that the amygdala is connected to other brain regions —
potentially some that are closer to the skull, which is an easier region to
target — that means people who do TMS could target the amygdala instead by
targeting these other regions," Edmonds said.
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