Proc Natl Acad Sci U S A
. 2024 Sep 17;121(38):e2403200121.
doi: 10.1073/pnas.2403200121. Epub 2024 Sep 9. COVID-19 lockdown effects on adolescent brain structure suggest accelerated maturation that is more pronounced in females than in males
Neva M Corrigan 1 2 , Ariel Rokem 2 3 4 , Patricia K Kuhl 1 5
Affiliations
Adolescence is a period of substantial social-emotional development, accompanied by dramatic changes to brain structure and function. Social isolation due to lockdowns that were imposed because of the COVID-19 pandemic had a detrimental impact on adolescent mental health, with the mental health of females more affected than males. We assessed the impact of the COVID-19 pandemic lockdowns on adolescent brain structure with a focus on sex differences. We collected MRI structural data longitudinally from adolescents prior to and after the pandemic lockdowns. The pre-COVID data were used to create a normative model of cortical thickness change with age during typical adolescent development. Cortical thickness values in the post-COVID data were compared to this normative model. The analysis revealed accelerated cortical thinning in the post-COVID brain, which was more widespread throughout the brain and greater in magnitude in females than in males. When measured in terms of equivalent years of development, the mean acceleration was found to be 4.2 y in females and 1.4 y in males. Accelerated brain maturation as a result of chronic stress or adversity during development has been well documented. These findings suggest that the lifestyle disruptions associated with the COVID-19 pandemic lockdowns caused changes in brain biology and had a more severe impact on the female than the male brain.
Keywords: accelerated brain maturation; adolescent cortical thinning; normative modeling.
. 2024 Sep 17;121(38):e2403200121.
doi: 10.1073/pnas.2403200121. Epub 2024 Sep 9. COVID-19 lockdown effects on adolescent brain structure suggest accelerated maturation that is more pronounced in females than in males
Neva M Corrigan 1 2 , Ariel Rokem 2 3 4 , Patricia K Kuhl 1 5
Affiliations
- PMID: 39250666
- DOI: 10.1073/pnas.2403200121
Adolescence is a period of substantial social-emotional development, accompanied by dramatic changes to brain structure and function. Social isolation due to lockdowns that were imposed because of the COVID-19 pandemic had a detrimental impact on adolescent mental health, with the mental health of females more affected than males. We assessed the impact of the COVID-19 pandemic lockdowns on adolescent brain structure with a focus on sex differences. We collected MRI structural data longitudinally from adolescents prior to and after the pandemic lockdowns. The pre-COVID data were used to create a normative model of cortical thickness change with age during typical adolescent development. Cortical thickness values in the post-COVID data were compared to this normative model. The analysis revealed accelerated cortical thinning in the post-COVID brain, which was more widespread throughout the brain and greater in magnitude in females than in males. When measured in terms of equivalent years of development, the mean acceleration was found to be 4.2 y in females and 1.4 y in males. Accelerated brain maturation as a result of chronic stress or adversity during development has been well documented. These findings suggest that the lifestyle disruptions associated with the COVID-19 pandemic lockdowns caused changes in brain biology and had a more severe impact on the female than the male brain.
Keywords: accelerated brain maturation; adolescent cortical thinning; normative modeling.