People with Lower Biological Response to Standard Stress Task Showed More PTSD Symptoms After COVID-19 Crisis Began

August 30, 2020

Study findings surprised researchers, who had expected the reverse, Baylor University researcher says

Contact: Terry Goodrich, Baylor University Media and Public Relations, 254-644-4155
Follow us on Twitter: @BaylorUMedia

WACO, Texas (Aug. 31, 2020) — People who did not have a large heart rate response to a stress task surprised researchers later — after the onset of the COVID-19 pandemic — when they showed more symptoms of post-traumatic stress disorder related to the crisis than others who also did the stress task and COVID-19 stress ratings.

Researchers had anticipated that the reverse would be true — that those with higher heart rate reactions to the stress task would experience more distress related to COVID-19.

Previous research shows individuals with PTSD have higher responses to stress. But very few studies have examined heart rate responses to acute stress before the onset of a traumatic event, researchers said.

“The study shows that diminished biological arousal — how the body responds when it is exposed to something startling or stressful — before a global pandemic may predict PTSD symptoms related to the event,” said principal investigator Annie T. Ginty, Ph.D., assistant professor of psychology and neuroscience at Baylor University.

The biological reactions were measured by blood pressure and heart rate, said co-author Danielle Young, Psy.D., research coordinator in the Baylor Behavioral Medicine Lab.

The study, published in the journal Psychosomatic Medicine, grew out of an ongoing study of undergraduate students at Baylor University.

“The research also showed that some college students were experiencing distress related to the pandemic in its earliest stages, even when social distancing was just beginning,” Ginty said.

In the study’s first phase, with 120 participants, researchers measured their resting heart rate and blood pressure before and during a standard acute psychological stress test. They asked students to do mental math, rather than writing down figures or using a calculator, and give the scorers verbal responses. In a four-minute test, they were asked to add consecutive single-digit numbers while remembering the most recent and adding it to the next number presented. They did this while being videotaped with a scorer present and looking at themselves in a mirror.

“The standard acute psychological stress task is meant to increase levels of stress by including requirements of cognitive effort, social evaluation, self-evaluation and competition,” Ginty said. “The task substantially increases heart rate and feelings of stress.”

Follow-up Findings

The study’s first phase, which ended in February 2020, was done in Central Texas. After the pandemic’s onset, researchers quickly launched a second phase between March 26 and April 5, sending participants a follow-up questionnaire about COVID-19. The participants were in 22 states after early campus closure due to COVID-19. When asked, none had tested positive for COVID-19 and 87.5 percent were living in a city/state with a “shelter in place” order.

The questionnaire included standard items used to measure PTSD symptoms of intrusion (dreaming about the event and having trouble staying asleep), hyperarousal (irritability and having trouble concentrating) and avoidance (trying not to think or talk about the event) in the seven days before they responded to the questionnaire.

The findings are in line with a previous study of soldiers, which showed that a lower response of cortisol — the primary stress hormone — to an acute psychological stress task before deployment predicted greater PTSD symptoms post deployment.

The present study supports growing evidence that lower biological arousal in response to psychological stress may be bad for health outcomes, particularly mental health outcomes. The findings support Ginty’s previous work, which demonstrated that lower arousal to acute stress is associated with higher levels of perceived stress — meaning that people rate their environment as more stressful.

Previous work also has shown that higher levels of biological arousal may be associated with developing PTSD symptoms. But those studies used what are considered passive tasks — such as hearing loud bursts of noise. Lower biological responses to stress tasks that require participants to actively engage in the task may be a unique biomarker for mental health outcomes.

Ginty said that future research should aim for more comprehensive measures of biological reactivity and include a lifetime history of traumatic event exposure. However, the current study did account for childhood trauma and diagnosis of a mental health condition before the pandemic’s onset.

“Since findings suggest that individuals with diminished arousal to active stress may be at greater risk for negative mental health outcomes, it could be helpful to offer preventive treatment or resources to them at the early stages of stress or trauma exposure,” Ginty said.

*Co-researchers included the Department of Cognitive and Behavioral Science and Neuroscience Program at Washington and Lee University in Lexington, Virginia, and the School of Sport, Exercise and Rehabilitation Sciences at the University of Birmingham in Birmingham, United Kingdom.

ABOUT BAYLOR UNIVERSITY

Baylor University is a private Christian University and a nationally ranked research institution. The University provides a vibrant campus community for more than 18,000 students by blending interdisciplinary research with an international reputation for educational excellence and a faculty commitment to teaching and scholarship. Chartered in 1845 by the Republic of Texas through efforts of Baptist pioneers, Baylor is the oldest continually operating University in Texas. Located in Waco, Baylor welcomes students from all 50 states and more than 90 countries to study a broad range of degrees among its 12 nationally recognized academic divisions.

ABOUT THE COLLEGE OF ARTS & SCIENCES AT BAYLOR UNIVERSITY

The College of Arts & Sciences is Baylor University’s largest academic division, consisting of 25 academic departments and eight academic centers and institutes. The more than 5,000 courses taught in the College span topics from art and theatre to religion, philosophy, sociology and the natural sciences. Faculty conduct research around the world, and research on the undergraduate and graduate level is prevalent throughout all disciplines. Visit baylor.edu/artsandsciences.