Hormonal Predisposition to Post Traumatic Stress Disorder
News Mar 08, 2017 | Original Story from University of Texas at Austin, USA
Image by Marines from Arlington, VA, United States
Up to 20 percent of U.S. veterans who served in Iraq and Afghanistan developed symptoms of post-traumatic stress disorder from trauma experienced during wartime, but new neuroscience research from The University of Texas at Austin suggests some soldiers might have a hormonal predisposition to experience such stress-related disorders.
Cortisol — the stress hormone — is released as part of the body’s flight-or-fight response to life-threatening emergencies. Seminal research in the 1980s connected abnormal cortisol levels to an increased risk for PTSD, but three decades of subsequent research produced a mixed bag of findings, dampening enthusiasm for the role of cortisol as a primary cause of PTSD.
However, new findings published in the journal Psychoneuroendocrinology point to cortisol’s critical role in the emergence of PTSD, but only when levels of testosterone — one of most important of the male sex hormones — are suppressed, researchers said.
“Recent evidence points to testosterone’s suppression of cortisol activity, and vice versa. It is becoming clear to many researchers that you can’t understand the effects of one without simultaneously monitoring the activity of the other,” said UT Austin professor of psychology Robert Josephs, the first author of the study. “Prior attempts to link PTSD to cortisol may have failed because the powerful effect that testosterone has on the hormonal regulation of stress was not taken into account.”
UT Austin researchers used hormone data obtained from saliva samples of 120 U.S. soldiers before deployment and tracked their monthly combat experiences in Iraq to examine the effects of traumatic war-zone stressors and PTSD symptoms over time.
Before deployment, soldiers’ stress responses were tested in a stressful CO2 inhalation challenge. “Healthy stress responses showed a strong cortisol increase in response to the stressor, whereas abnormal stress responses showed a blunted, nonresponsive change in cortisol,” Josephs said.
The researchers found that soldiers who had an abnormal cortisol response to the CO2 inhalation challenge were more likely to develop PTSD from war-zone stress. However, soldiers who had an elevated testosterone response to the CO2 inhalation challenge were not likely to develop PTSD, regardless of the soldiers’ cortisol response.
“The means through which hormones contribute to the development of PTSD and other forms of stress-related mental illness are complex,” said Adam Cobb, a UT Austin clinical psychology doctoral candidate and co-author of the study. “Advancement in this area must involve examining how hormones function together, and with other psychobiological systems, in response to ever-changing environmental demands.”
Knowing this, the scientists suggest future research could investigate the efficacy of preventative interventions targeting those with at-risk profiles of hormone stress reactivity. “We are still analyzing more data from this project, which we hope will reveal additional insights into risk for combat-related stress disorders and ultimately how to prevent them,” said Michael Telch, clinical psychology professor and corresponding author of the study.
These findings add to a series of published reports from the Texas Combat PTSD Risk Project, a study funded by the Defense Advanced Research Projects Agency aimed at identifying biological, psychological and environmental vulnerability factors that predict the emergence of PTSD and other psychological problems among soldiers deployed to Iraq.
This article has been republished from materials provided by the University of Texas at Austin, USA. Note: material may have been edited for length and content. For further information, please contact the cited source.
In a new study, Stanford psychologists examined why some people respond differently to an upsetting situation and learned that people’s motivations play an important role in how they react. The findings, say authors, suggest that people have more control over how their emotions get influenced than previously realized,
During fetal brain development, both neurons and astrocytes are generated from neural stem cells. One of the characteristics of this developmental process is that neural stem cells first generate neurons and, after that, start generating astrocytes. The "switch" to change the fate of neural stem cells from neurons to astrocytes has remained largely unidentified. Until now.READ MORE