Wednesday, 14 September 2011

Real-Time fMRI Psychotherapy

Old World Psychotherapy: Sofa of Sigmund Freud
There has been a series of interesting research studies examining the effect of psychotherapy on brain structure and function.  These studies have typically shown that effective psychotherapy results in reduction of brain deficits or abnormalities associated with a specific neuropsychiatric disorder.

Now a study published in Plos One summarizes the results of study examining the use of real-time fMRI to provide neurofeedback during an amygdala activation task.

This research was completed by neuroscientists affiliated with the Laureate Institute of Brain Research in Tulsa, Oklahoma and George Mason University in Fairfax, Virginia. (Disclosure: The author of Brain Posts is employed by Laureate Institute of Brain Research but was not involved in the study reviewed in this post.)

The authors of this study noted the key role of the amygdala in the processing of emotions.   They developed a experimental paradigm to train control subjects to increase the activation of the brain left amygdala.  A group of young male subjects were instructed in a happy autobiographical memory task and provided real-time feedback on how successful they were in increasing blood flow to the left amygdala.

Subjects identified three key happy memories from their past.  During the experimental phase, they were instructed to recall these specific memories while being scanned using an fMRI scanner. They were provided real-time feedback on a monitor screen on the changes in left amygdala BOLD signal.  (Subjects were told prior to scanning that fMRI neurofeedback is delayed by a few seconds due to the brain hemodynamic process).

Subjects provided real-time feedback were more successful at increasing the left amygdala activation than those in a control group.  This increase in the experimental group correlated with increases in other brain areas known to have functional connectivity with the amygdala (fronto-temporo-limbic network).

New World Psychotherapy: Real Time fMRI


Additionally, the study identified six specific regions where functional connectivity identified correlations with the left amygdala activation:

  • right medial frontal cortex
  • bilateral dorsomedial prefrontal cortex
  • left anterior cingulate cortex
  • bilateral superior frontal gyrus

Subjects were selected based on being free of a history of neuropsychiatric disorders including anxiety and depression.  However, there was some variability in the level of change in left amygdala activation with neurofeedback training.  Subjects who scored high on the Difficulty Identifying Feelings scale had less increase in the left amygdala.  Additionally, subjects with higher scores on a scale of being susceptible to anger showed less increase.

This research is an very important advance in understanding the amygdala and regions connected with the amygdala.  Additionally, it raises the possibility that real-time fMRI may emerge as a tool to understand processes associated with psychotherapy and to be an emerging model for providing therapy under real-time neurofeedback conditions.  

The site of psychotherapy might be moving from the sofa model of Sigmund Freud to the fMRI scanner.  Both methods have subjects that lie down, but only the fMRI method provides real-time feedback of brain effects related to a psychotherapy intervention.

The authors note that this study was a type of "proof-of-concept" study since it focused on healthy control subjects.  They suggest that this type of model might be particularly relevant to cognitive behavioral treatment of conditions such as PTSD and major depression.


Photo of Sigmund Freud sofa from the Freud Museum in London from Wikipedia distributed under the GNU Free Documentation License.


Photo of Functional Magnetic Research Imaging device courtesy of the Laureate Institute for Brain Research. 

Zotev, V., Krueger, F., Phillips, R., Alvarez, R., Simmons, W., Bellgowan, P., Drevets, W., & Bodurka, J. (2011). Self-Regulation of Amygdala Activation Using Real-Time fMRI Neurofeedback PLoS ONE, 6 (9) DOI: 10.1371/journal.pone.0024522

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