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Early stress may sensitize girls’ brains for later anxiety

High levels of family stress in infancy are linked to differences in everyday brain function and anxiety in teenage girls, according to new results of a long-running population study by University of Wisconsin-Madison scientists.

The study highlights evidence for a developmental pathway through which early life stress may drive these changes. Here, babies who lived in homes with stressed mothers were more likely to grow into preschoolers with higher levels of cortisol, a stress hormone. In addition, these girls with higher cortisol also showed less communication between brain areas associated with emotion regulation 14 years later. Last, both high cortisol and differences in brain activity predicted higher levels of adolescent anxiety at age 18.

The young men in the study did not show any of these patterns.

“We wanted to understand how stress early in life impacts patterns of brain development which might lead to anxiety and depression,” says first author Dr. Cory Burghy of the Waisman Laboratory for Brain Imaging and Behavior. “Young girls who, as preschoolers, had heightened cortisol levels, go on to show lower brain connectivity in important neural pathways for emotion regulation – and that predicts symptoms of anxiety during adolescence.”

To test this, scans designed by Dr. Rasmus Birn, assistant professor of psychiatry in the UW School of Medicine and Public Health, showed that teenage girls whose mothers reported high levels of family stress when the girls were babies show reduced connections between the amygdala or threat center of the brain and the ventromedial prefrontal cortex, a part of the brain responsible for emotional regulation. Birn used a method called resting-state functional connectivity (fcMRI), which looks at the brain connections while the brain is at a resting state.

The study is being published today in Nature Neuroscience.

“Merging field research and home observation with the latest laboratory measures really makes this study novel,” says Dr. Richard Davidson, professor of psychology and psychiatry, and director of the lab where Burghy is a post-doctoral researcher. “This will pave the way to better understanding of how the brain develops, and could give us insight into ways to intervene when children are young.”

The current paper has its roots back in 1990 and 1991, when 570 children and their families enrolled in the Wisconsin Study of Families and Work (WSFW). All of the children were born in either Madison or Milwaukee. Dr. Marilyn Essex, a UW professor of psychiatry and co-director of the WSFW, said the initial goal was to study the effects of maternity leave, day care and other factors on family stress. Over the years, the study has resulted in important findings on the social, psychological, and biological risk factors for child and adolescent mental health problems. Subjects are now 21 and 22 years old, and many continue to participate.

For the current study, Burghy and Birn used fcMRI to scan the brains of 57 subjects – 28 female and 29 male – to map the strength of connections between the amygdala, an area of the brain known for its sensitivity to negative emotion and threat, and the prefrontal cortex, often associated with helping to process and regulate negative emotion. Then, they looked back at earlier results and found that girls with weaker connections had, as infants, lived in homes where their mothers had reported higher general levels of stress – which could include symptoms of depression, parenting frustration, marital conflict, feeling overwhelmed in their role as a parent, and/or financial stress. As four-year-olds, these girls also showed higher levels of cortisol late in the day, measured in saliva, which is thought to demonstrate the stress the children experienced over the course of that day.

Near the time of the scan, researchers queried the teenagers about their anxiety symptoms, and about the stress in their current lives. They found a connection with childhood stress, rather than current stress levels. This suggested that higher cortisol levels in childhood could have modified the girl’s developing brain, leaving weaker connections between the prefrontal cortex and amygdala – an association that explained about 65 percent of the variance in teenage anxiety levels.

“Our findings raise questions on how boys and girls differ in the life impact of early stress,” says Davidson, who calls the disparity unsurprising. “We do know that women report higher levels of mood and anxiety disorders, and these sex-based differences are very pronounced, especially in adolescence.”

Davidson says the study “raises important questions to help guide clinicians in preventive strategies that could benefit all children by teaching them to propagate well-being and resilience.”

Essex notes that some of the recent results also answer questions raised when the newborns were enrolled a generation ago.

“Now that we are showing that early life stress and cortisol affect brain development,” she says, “it raises important questions about what we can do to better support young parents and families.”




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