Scientists are working together to learn how a new treatment technique affects people with obsessive-compulsive disorder.
The University of Rochester Medical Center will serve as the hub of a five-year study that includes six institutions around the nation and in Puerto Rico.
More than 50 researchers will focus on how deep brain stimulation affects people with obsessive-compulsive disorder.
While most patients who have OCD find relief either through medication or through behavioral therapy, the disease is life-altering for the approximately 10 percent of patients who aren’t helped by any of today’s treatments.
“Obsessive-compulsive disorder is a truly debilitating disease for some patients,” said Rochester neuroscientist Suzanne Haber, Ph.D., professor of pharmacology and physiology, who heads the center.
“While treatment helps most patients lead fulfilling lives, there are a few for whom today’s therapies simply don’t work. Our center is designed to explore the science and the effects of deep brain stimulation, which has been effective for some other diseases involving the brain, such as Parkinson’s disease.”
Previous research conducted by Haber’s group on OCD has helped physicians improve DBS surgery and lessen its side effects for OCD patients. The latest grant marks a major expansion of the previous project, which included many of the same scientists around the country.
The group will look at precisely what happens in the brain when deep brain stimulation occurs and will look for ways to improve the procedure for patients. While DBS is an approved treatment for movement disorders such as Parkinson’s disease, it’s under study for possible use in psychiatric disorders like depression and OCD.
The technique is approved by the U.S. Food and Drug Administration for humanitarian use for patients with OCD, but scientists and physicians want to understand the effects of the technique in OCD patients more fully.
In OCD patients, surgeons use the technique to alter the signaling in bundles of nerve fibers that connect different regions of the brain much like large superhighways connect large cities. DBS is the equivalent of an intervention to change the flow of “traffic” or information in the brain in an effort to relieve a patient’s symptoms.
In addition to Haber’s laboratory, which specializes in the anatomy and circuitry of the brain, the team includes experts on OCD, DBS, and the physiology that underlies certain behaviors such as weighing the risks and rewards of actions. The team will study how a person’s behavior changes as a result of the technique and will track exactly which parts of the brain are involved in the process.
The center includes a team of physicians based at Butler Hospital in Providence who are leading a separate study on the effectiveness of DBS in OCD patients. In tests so far the procedure seems to help more than half the patients who receive the treatment, a hopeful find in a group in whom no therapy has worked thus far.
“Dr. Haber is recognized around the world as a thought leader in the field of deep brain stimulation,” said Webster Pilcher, M.D., Ph.D., chair of the department of neurosurgery.
“This new project, designed to translate her groundbreaking investigations of the neural circuitry underlying obsessive-compulsive disorder into new treatment strategies for patients, is what the Del Monte Neuromedicine Institute is all about.”
The Del Monte Institute was created earlier this year thanks to a $10 million gift from Ernest J. Del Monte, chairman of E.J. Del Monte Corp., with a focus on fostering translational research programs in neuromedicine at the medical center.
OCD is an anxiety disorder where a person can become plagued by unwanted, constant thoughts and consequently becomes caught in repeated, unwanted and unnecessary behaviors or rituals. An example is a person who becomes so preoccupied with germs that he or she is unable to live a normal life.
The person might be unwilling to leave the home or to meet new people, for instance, and holding down a job might be impossible. Or they might be unable to focus during their workday, instead constantly making plans for their next trip to the restroom for a hand-washing ritual that takes place dozens or hundreds of times a day. Other common themes among patients include repetitive, troublesome thoughts involving sexual activity, or an obsession with numbers.
In many ways, Haber says, OCD comes down to a problem with the way the brain balances risk and reward. Among healthy people, some are more prone to take risks, perhaps pushing the gas pedal a little too hard in search of a rush on the highway.
Others might be afraid to touch family members or visit the grocery story lest they catch swine flu. Most people are somewhere in between. For every such decision we make, a bevy of brain circuits is hard at work behind the scenes, weighing risks and rewards and sending countless electrical impulses rushing around the brain. Is the risk worth the potential reward?
“But in patients with obsessive-compulsive disorder, patients somehow become fixated on the risk, and their lives can literally grind to a halt. Their lives become dominated by fear,” said Haber.
The new project may do more than improve the lives of people with OCD. The same risk vs. reward system is at the center of conditions such as post-traumatic stress disorder and drug addiction.
And the DBS procedure itself offers scientists a rare opportunity to closely monitor a person’s brain as it’s affected by carefully measured, monitored electrical signals. Scientists will use the occasion to learn more about how the brain works, information that will aid the body of knowledge that forms the basis for the treatment of several diseases that affect the brain.
“We are fortunate to have this group of patients and to be able to study them so closely,” said Haber. “It’s a great example of how a new treatment opens up new research horizons, through which we can then make new discoveries that further improve patient care.”