Published: February 04, 2011
Mayo Clinic Researchers Measure Serotonin Levels Using a Novel Device Called WINCS
ROCHESTER, Minn. - (BUSINESS WIRE) - Mayo
Clinic researchers have concluded that, through deep brain
stimulation, a Wireless
Instantaneous Neurotransmitter Concentration System (WINCS) can
detect and measure serotonin levels in the brain. The findings suggest
that in the future such measurements of serotonin may help establish a
therapeutic mechanism of deep brain stimulation for psychiatric disease.
This study was published in the September 2010 issue of the Journal
of Neurosurgery.
Previously, the researchers found, also through deep brain stimulation,
that WINCS detected and measured dopamine levels in the brain.
Major
depressive disorder is the second most disabling condition in the
developed world, with lifetime prevalence in the United States of 17
percent. Serotonin is a neurotransmitter in the brain that is thought to
play a key role in controlling depression. Using deep brain stimulation,
neurosurgeons can help patients with essential tremor, Parkinson's
disease, movement disorders, and now, based on this study, psychiatric
disorders.
"In a previous study, in order to better understand the mechanism of
deep brain stimulation, we created WINCS, a new device that successfully
measured such neurotransmitter levels as dopamine and norepinephrine on
a second-by-second basis," says Kendall
Lee, M.D., Ph.D., a Mayo Clinic neurosurgeon.
"In this experiment, we wanted to try to measure serotonin, which is
very important in the mechanism of depression and its treatment. This
study shows that WINCS can measure serotonin with a technology called
fast-scan cyclic voltammetry, which is an electrochemical method of
being able to measure serotonin in real time in the living brain."
For this study, researchers collaborated with Mayo Clinic's Division
of Engineering and Paul Garris, Ph.D., at Illinois State University,
who helped design and test the WINCS device. "We were able to take the
laboratory method of neurotransmitter detection and create a
miniaturized, wireless, computer-controlled device that allowed the
detection to occur in real time," says Kevin Bennet, chair, Mayo
Clinic's division of Engineering "We took the technique of fast-scan
cyclic voltammetry, created real-time control and reporting, and
converted it into something that can be used in animals and humans."
While the study was conducted on animals, Dr. Lee is confident that the
technology will be successful in humans. "Using this device, we can now
do real-time serotonin measurement, so we're hopeful that in the near
future we're able to use WINCS to measure serotonin in the human brain,"
he says.
"What is significant is that if we can measure serotonin, perhaps we can
modulate it. This opens the door for even more exciting areas of
medicine. By having technology such as WINCS, rather than just
diagnosing or measuring neurotransmitters, you can use this as a
therapeutic tool to more precisely regulate brain neurotransmitter
levels," says Dr. Lee.
Other members of the Mayo Clinic research team included Christopher
Criessenauer, M.D.; Su-Youne Chang, Ph.D.; Susannah Tye, Ph.D.; and
Christopher Kimble.
About Mayo Clinic
Mayo Clinic is a nonprofit worldwide
leader in medical care, research and education for people from all walks
of life. For more information, visit www.mayoclinic.com
and www.mayoclinic.org/news.
Mayo Clinic
Karl Oestreich
Adrienne Foley
507-284-5005
(days)
507-284-2511 (evenings)
e-mail: newsbureau@mayo.edu
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