Brain scan patterns may reveal PTSD in soldiers
Last Updated: Friday, April 3, 2009 | 11:00 AM ET Comments2Recommend8
The Canadian Press
New research is shining a light on differences in the brains of soldiers with post-traumatic stress disorder when compared with soldiers who return from combat without the condition.
The work could some day lead to the use of brain scans to help diagnose PTSD, to tailor treatment or even identify people who might be at risk of developing the problem if they're exposed to violence in a war zone, experts say.
'This is consistent with the hypervigilance symptoms that are associated with PTSD that might make these people be very sensitive to detecting anything that could be relevant for survival.'— Dr. Florin Dolcos
Dr. Florin Dolcos, an assistant professor of psychiatry and neuroscience at the University of Alberta, travelled to Italy to present the research Friday at the World Psychiatric Association congress in Florence.
The experiments were conducted in North Carolina by a team led by Dr. Rajendra Morey of Duke University. Morey is also director of the neuroimaging lab at Durham Veterans Administration Medical Center.
Forty-two U.S. soldiers who had returned from Iraq and Afghanistan took part in the study, including 22 soldiers who had developed post-traumatic stress disorder and 20 who had not.
The experiment involved functional magnetic resonance imaging scans while performing memory tasks:
- Look at photos of three similar faces.
- After a delay, look at a photo of a single face.
- Push a button indicating whether the face in the previous batch of three was seen before or whether it was new.
However, the soldiers were interrupted by random photos showing either combat scenes or neutral scenes, such as people in a marketplace or at an office. The test was repeated 40 times.
"We found a couple of major results," Doclos said in an interview from Rome.
The first involved the area of the brain known as the dorsal lateral prefrontal cortex.
"In the region that allows us to stay focused on a task, we've seen increased sensitivity of the soldiers with PTSD in response to not only the combat pictures but also to the neutral non-combat pictures," he said.
Hypervigilance symptoms
The PTSD group did more poorly in identifying whether the final faces were new or old — whether the photos that distracted them were neutral or depicting war scenes.
"And this is consistent with the hypervigilance symptoms that are associated with PTSD that might make these people be very sensitive to detecting anything that could be relevant for survival."
Besides hypervigilance, symptoms of PTSD include reliving or re-experiencing the traumatic event, hyperarousal and avoidance of certain stimuli.
Morey said the other finding involved the dorsal medial prefrontal cortex, a region of the brain that has to do with thinking about oneself. It lit up significantly in the PTSD group when the combat photos were shown, but not so much in the brains of the other soldiers.
Norman Shields, a psychologist at the National Centre for Operational Stress Injuries at Ste. Anne's Hospital near Montreal, said that any move toward the use of fMRIs can provide clinicians with more information than they get from self reports and interviews with patients.
"To establish a diagnosis right now, we rely quite heavily on a number of different things — not just self-reported symptoms, but also having to rule out other factors, and sometimes that means physical, biological or medical factors as well," he said.
"But I think in the case of this type of study, and I think studies like it, the use of functional magnetic resonance imaging brings a different perspective to what's going on. It's more than what you actually see in front of you at times, let's say in a clinical interview."
Functional MRIs can also look at potential impacts on the brain of interventions to help patients, he said. Treatments or interventions for PTSD condition include pharmacotherapy or medication and cognitive behaviour therapy, he said.
Potential recruitment tool
Besides possibilities in diagnosis, Dolcos also sees potential for studying brains to determine whether there might be pre-existing individual differences that make some people more susceptible to developing PTSD.
And it could eventually become a military recruiting tool, to identify people who may not be resilient enough, Dolcos suggested.
"The development of the PTSD symptoms might eventually be avoided if some of the people could be identified as not qualified for or resilient enough to be exposed to something that could lead more likely to PTSD as a result of exposure to trauma, like in the case of a war."
Both Shields and Morey cautioned the research is just an incremental step toward a new diagnostic tool.
