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Tinnitus Treatment: Nerve Stimulation May Help

Nerve Stimulation Highly Effective in Battling Tinnitus, Nature Study Reports

January 12, 2011 - Targeted nerve stimulation could yield a long-term reversal of tinnitus, a debilitating hearing impairment affecting at least 10 percent of senior citizens and up to 40 percent of military veterans, according to an article posted in today’s online edition of Nature.

UTD Tinnitus ResearchResearchers Dr. Michael Kilgard and Dr. Navzer Engineer from The University of Texas at Dallas and University-affiliated biotechnology firm MicroTransponder report that stimulation of the vagus nerve paired with sounds eliminated tinnitus in rats. A clinical trial in humans is due to begin in the next few months.

Described as a ringing in the ears, tinnitus causes mild irritation for some people but is disabling and painful for many others. The U.S. Veterans Administration spends about $1 billion a year on disability payments for tinnitus, said Kilgard, associate professor in the School of Behavioral and Brain Sciences at UT Dallas and co-author of the journal article.

“Brain changes in response to nerve damage or cochlear trauma cause irregular neural activity believed to be responsible for many types of chronic pain and tinnitus,” he said. “But when we paired tones with brief pulses of vagus nerve stimulation, we eliminated the physiological and behavioral symptoms of tinnitus in noise-exposed rats.”

The researchers are, in essence, retraining the brain to ignore the nerve signals that simulate ringing. They monitored the laboratory rats for several weeks after therapy, and the improvements persisted.

“This minimally invasive method of generating neural plasticity allows us to precisely manipulate brain circuits, which cannot be achieved with drugs,” said Dr. Navzer Engineer, vice president of preclinical affairs at MicroTransponder and lead author on the study. “Pairing sounds with VNS provides that precision by rewiring damaged circuits and reversing the abnormal activity that generates the phantom sound.”

The research team is developing parameters for a clinical trial in humans. Vagus nerve stimulation (VNS) is currently used in humans for treatment of epilepsy and depression. “The translation from basic science to the clinic has been quite rapid,” Engineer said. “It’s exciting that the National Institutes for Health has been so supportive of our efforts to move this work along faster, in hopes of providing effective treatments to tinnitus patients.”

The National Institutes of Health (NIH) early in 2010 granted Kilgard and MicroTransponder $1.7 million to further investigate whether nerve stimulation offers a long-term cure for tinnitus.

The first patient could be treated in Europe by early 2011, Engineer said. The initial set of human participants will have the electrodes attached to the left vagus nerve in their neck during a short outpatient procedure. They will come to the clinic Monday through Friday for a few weeks of treatment. At each daily session, they will experience VNS paired with sounds.

MicroTransponder, a neuroscience based medical device company, was founded by UT Dallas PhD candidate Will Rosellini and sponsored by the school’s Institute for Innovation and Entrepreneurship. MicroTransponder is developing a less invasive wireless medical device to stimulate the vagus nerve. The UT Dallas/MicroTransponder team also is studying how best to optimize the paired therapy for tinnitus patients.

Past research has shown that the severity of chronic pain and tinnitus is tied to the degree of plasticity in the brain’s cortex. A previous study showed that repeatedly pairing sensory stimuli with electrical stimulation of a brain structure called nucleus basalis generates powerful and long-lasting changes in cortical organization. Since the vagus nerve is easier to access for clinical use, and is known to trigger the release of molecules in the brain that promote neural changes, follow-up studies were performed on the vagus nerve.

For the VNS study, the research team used a “gap detection model” to document tinnitus in rats that were exposed to loud noise for one hour while under anesthesia. Each of the noise-exposed rats used in this study exhibited a significant impairment in the ability to detect a quiet gap in a tone near their tinnitus frequency, but exhibited no impairment when the gap was placed in a higher or lower tone.

“Previous research showed that a frequency-specific impairment in gap detection is a likely sign that noise-exposed rats experience a mid-frequency tinnitus ‘ringing’ that fills the silent gaps,” Kilgard said. “Though it isn’t possible to evaluate the subjective experience of rats, this gap impairment has been taken as an indicator of tinnitus.”

When the rats were exposed to VNS paired with sounds, the gap impairment was eliminated – indicating that the tinnitus was gone.

Today’s therapies for tinnitus have limited success and frequently must be modified over time because they become ineffective. “The VNS treatment would be an improvement over current therapies involving medications or counseling because it offers a possible permanent end to the condition and doesn’t appear to cause any significant side effects,” Kilgard said.

Additional sponsors of the work include the James S. McDonnell Foundation, the Norman Hackerman Advanced Research Program and the Texas Emerging Technology Fund.

The paper’s other authors were: UT Dallas neuroscientists Drs. Jonathan Riley, Jonathan Seale,Will Vrana, Jai Shetake, Sindhu Sudanagunta and Michael Borland. The article will be published in the Jan. 27 print edition of the journal.

Source: University of Texas at Dallas

 

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