COVID Pandemic Hastened Brain Aging in Teens – Neuroscience News

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Summary: The COVID-19 pandemic accelerated brain maturation in adolescents, particularly girls, with their brains aging by an average of 4.2 years. The study links this acceleration to the stress of reduced social interaction during lockdowns, affecting brain regions responsible for emotional regulation.

Brain scans showed accelerated thinning of the cerebral cortex, a natural aging process, but at a faster rate. This early maturation could increase the risk of neuropsychiatric disorders, with females showing more pronounced changes than males.

Key Facts:

  • Female adolescents experienced 4.2 years of accelerated brain aging, compared to 1.4 years in males.
  • Cortical thinning, linked to stress, was more pronounced across all brain regions in females.
  • The pandemic’s impact on reduced social interaction likely played a significant role in the accelerated brain aging.

Source: University of Washington

During the COVID-19 pandemic, governments around the world implemented restrictive measures — such as stay-at-home orders and school closures — to mitigate the spread of the respiratory illness. It’s been well-documented that this disruption of daily routines and social activities had a negative impact on the mental health of adolescents.

Adolescence, the period of transition between childhood and adulthood, is marked by dramatic changes in emotional, behavioral and social development. It’s also a time when a sense of self-identity, self-confidence and self-control are developed.

They then re-examined the brains of the adolescents, over 80% of whom returned for the second set of measurements. Credit: Neuroscience News

The pandemic reduced social interaction for teenagers and led to documented reports of anxiety, depression and stress, especially for girls.

New research from the University of Washington, published online Sept. 9 in the Proceedings of the National Academy of Sciences, found the pandemic also resulted in unusually accelerated brain maturation in adolescents.

This maturation was more pronounced in girls. When measured in terms of the number of years of accelerated brain development, the mean acceleration was 4.2 years in females and 1.4 years in males.

“We think of the COVID-19 pandemic as a health crisis,” said Patricia Kuhl, senior author and co-director of the UW Institute for Learning & Brain Sciences (I-LABS), “but we know that it produced other profound changes in our lives, especially for teenagers.”

Brain maturation is measured by the thickness of the cerebral cortex, the outer layer of tissue in the brain. The cerebral cortex naturally thins with age, even in teens. Chronic stress and adversity are known to accelerate cortical thinning, which is associated with an increased risk for the development of neuropsychiatric and behavioral disorders.

Many of these disorders, such as anxiety and depression, often emerge during adolescence — with females at a higher risk.

The UW research began in 2018 as a longitudinal study of 160 teens between 9 and 17 years, with the original objective of evaluating changes in brain structure during typical adolescence. 

The cohort was slated to return in 2020, but the pandemic delayed the repeat tests until 2021. By then, the original intent to study typical teen development was no longer viable.

“Once the pandemic was underway, we started to think about which brain measures would allow us to estimate what the pandemic lockdown had done to the brain,” said Neva Corrigan, lead author and research scientist at I-LABS.

“What did it mean for our teens to be at home rather than in their social groups — not at school, not playing sports, not hanging out?”

Using the original 2018 data, researchers created a model of expected cortical thinning during the teen years. They then re-examined the brains of the adolescents, over 80% of whom returned for the second set of measurements.

The teens’ brains showed a general effect of accelerated thinning across adolescence, but this was much more pronounced in females. The cortical thinning effects in females were seen all over the brain, in all lobes and both hemispheres. In males, the effects were only seen in the visual cortex.

The greater impact on female brains as opposed to male brains could be due to differences in the importance of social interaction for girls versus boys, Kuhl said.

She added that female teenagers often rely more heavily on the relationships with other girls, prioritizing the ability to gather, talk to each other and share feelings. Boys tend to gather for physical activity.

“Teenagers really are walking a tightrope, trying to get their lives together,” Kuhl said.

“They’re under tremendous pressure. Then a global pandemic strikes and their normal channels of stress release are gone. Those release outlets aren’t there anymore, but the social criticisms and pressures remain because of social media.

“What the pandemic really seems to have done is to isolate girls. All teenagers got isolated, but girls suffered more. It affected their brains much more dramatically.”

The cerebral cortex is unlikely to get thicker again, Kuhl said, but the potential for recovery might take the form of slower thinning over time, after the return of normal social interactions and outlets. Further research will be needed to see if this is the case.

“It is possible that there might be some recovery,” Kuhl said. “On the other hand, it’s also possible to imagine that brain maturation will remain accelerated in these teens.”

In older populations, measures of cognitive brain function, such as processing speed and the ability to complete typical tasks, correlate with how much the cerebral cortex has thinned. That kind of data is not yet available for teenagers, Kuhl said, but it could be where future research is headed.

“The pandemic provided a test case for the fragility of teenagers’ brains,” Kuhl said. “Our research introduces a new set of questions about what it means to speed up the aging process in the brain. All the best research raises profound new questions, and I think that’s what we’ve done here.”

Ariel Rokem, a UW research associate professor of psychology and data science fellow at the eScience Institute, is a co-author.

Funding: The research was funded by a grant from the Bezos Family Foundation.

About this neurodevelopment and brain aging research news

Author: Sarah McQuate
Source: University of Washington
Contact: Sarah McQuate – University of Washington
Image: The image is credited to Neuroscience News

Original Research: The findings will appear in PNAS

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