

An epilepsy drug shows promise in an animal model at preventing tinnitus from developing after exposure to loud noise, according to a new study by researchers at the University of Pittsburgh School of Medicine. The findings, reported this week in the early online version of theProceedings of the National Academy of Sciences, reveal for the first time the reason the chronic and sometimes debilitating condition occurs.



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The team focused on an area of the brain that is home to an important auditory center called the dorsal cochlear nucleus (DCN). From previous research in a mouse model, they knew that tinnitus is associated with hyperactivity of DCN cells -- they fire impulses even when there is no actual sound to perceive. For the new experiments, they took a close look at the biophysical properties of tiny channels, called KCNQ channels, through which potassium ions travel in and out of the cell.



"We found that mice with tinnitus have hyperactive DCN cells because of a reduction in KCNQ potassium channel activity," Dr. Tzounopoulos said. "These KCNQ channels act as effective "brakes" that reduce excitability or activity of neuronal cells."



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"This is an important finding that links the biophysical properties of a potassium channel with the perception of a phantom sound," Dr. Tzounopoulos said. "Tinnitus is a channelopathy, and these KCNQ channels represent a novel target for developing drugs that block the induction of tinnitus in humans."



The KCNQ family is composed of five different subunits, four of which are sensitive to retigabine. He and his collaborators aim to develop a drug that is specific for the two KCNQ subunits involved in tinnitus to minimize the potential for side effects.



"Such a medication could be a very helpful preventive strategy for soldiers and other people who work in situations where exposure to very loud noise is likely," Dr. Tzounopoulos said. "It might also be useful for other conditions of phantom perceptions, such as pain in a limb that has been amputated."​