Brain Scans Help Determine Best OCD Treatment
Obsessive-compulsive disorder, is a condition in which obsessive thoughts and compulsive behaviors become so excessive they interfere with daily life.
Traditional intervention for OCD includes the use of cognitive behavioral therapy (CBT). CBT helps people understand the thoughts and feelings that influence their behaviors, and helps them take action to eliminate the errant beliefs.
However, not all OCD sufferers benefit from CBT over the long term: In an estimated 20 percent of patients, symptoms eventually return after the therapy is complete.
A new study by University of California, Los Angeles (UCLA) researchers suggests that a certain detail from patients’ brain scans could help clinicians identify which people are more likely to relapse after cognitive-behavioral therapy — and why.
The discovery is important as tens of millions of Americans — an estimated one to two percent of the population — will suffer at some point in their lifetimes from obsessive-compulsive disorder. Left untreated, OCD can be profoundly distressing to the patient and can adversely affect their ability to succeed in school, hold a job, or function in society.
Since CBT does not work for everyone, using brain scans to identify those who may not benefit from the traditional therapy would allow alternative forms of intervention. “The efficiency of brain network connectivity before treatment predicts the worsening of symptoms after treatment,” said Jamie Feusner, a UCLA associate professor of psychiatry and director of the Semel Institute’s Adult OCD Program.
Feusner and Joseph O’Neill, a UCLA associate professor of child psychiatry and a research scientist at the Semel Institute, were the study’s co-principal investigators. The research appears in the open-access journal Frontiers in Psychiatry.
In the study, researchers used functional magnetic resonance imaging, or fMRI, to evaluate the brains of 17 people, aged 21 to 50 years old, with OCD. Scans were taken both before and immediately after the patients completed an intensive four-week course of cognitive-behavioral therapy, and the doctors monitored the patients’ clinical symptoms over the next 12 months.
“We found that cognitive-behavioral therapy itself results in more densely connected local brain networks, which likely reflects more efficient brain activity,” Feusner said.
However, the researchers also found that people who had more efficient brain connectivity before they began treatment actually did worse in the follow-up period.
Surprisingly, neither the severity of symptoms before treatment nor the amount that symptoms improvement during treatment were accurate predictors of the patients’ post-treatment success.
The researchers say that knowing more about which patients might not fare well long-term could potentially help doctors and patients choose the best course of treatment.
“Cognitive-behavioral therapy is in many cases very effective, at least in the short term. But it is costly, time-consuming, difficult for patients and, in many areas, not available,” Feusner said. “Thus, if someone will end up having their symptoms return, it would be useful to know before they get treatment.”
He added that the findings don’t mean that some people with OCD cannot be helped — just that four weeks of intensive cognitive-behavioral therapy might not be the most effective long-term approach.
OCD can also be treated with medication or through cognitive-behavioral therapy that lasts longer than the four-week period evaluated in the study.
The UCLA study was the first to use brain connectivity to help predict a post-treatment clinical course, and the first to test the effects of cognitive-behavioral therapy on brain network connectivity.
Feusner and his colleagues are conducting several other studies to understand the effects of the treatment on the brain in people with OCD and with other OCD-related disorders, including body dysmorphic disorder and anorexia nervosa.
“We are now starting to translate knowledge of the brain into useful information that in the future could be used by doctors and patients to make clinical decisions,” Feusner said.
“Although a brain scan may seem expensive, these scans only took about 15 minutes and thus the cost is not exceptionally high, particularly in comparison to medication or cognitive-behavioral therapy treatments, which over time can cost many thousands of dollars.”
The researchers plan to conduct another study in a larger number of patients in an attempt to validate the findings; they also will assess additional measures of brain function and structure that they hope will offer more clues to determining the long-term course of symptoms in people being treated for OCD.
Nauert PhD, R. (2015). Brain Scans Help Determine Best OCD Treatment. Psych Central. Retrieved on March 19, 2018, from https://psychcentral.com/news/2015/06/26/brain-scans-help-determine-best-ocd-treatment/86134.html