A new way to test anti-hearing loss and noise-induced hearing loss (NIHL) drugs in people could help land those medicines on pharmacy shelves sooner. University of Florida (UF) researchers in Gainesville are said to have figured out the longstanding problem of how to safely create temporary, reversible hearing loss in order to see how well the drugs work. The findings are described in a study found in the November/December 2012 issue of Ear & Hearing.
“There’s a real need for drug solutions to hearing loss,” said lead investigator Colleen Le Prell, an associate professor in the department of speech, language, and hearing sciences at the UF College of Public Health and Health Professions. “Right now the only options for protecting against noise-induced hearing loss are to turn down what you’re listening to, walk away from it, or wear ear plugs, and those options may not be practical for everyone, particularly for those in the military who need to be able to hear threats.”
Although prototype drugs have prevented noise-induced hearing loss in laboratory animals, it has been hard to know whether the same protection is possible in humans, largely because researchers lacked an effective method for the needed tests. Those tests are now reportedly achievable because of the UF efforts. The work brings scientists closer to the development of drugs that could help protect people at risk of hearing damage—from rock concert goers to factory workers and military personnel who are routinely exposed to noise as they work.
Le Prell’s model is the first to use controlled music levels to reliably cause low-level, temporary hearing loss in human participants. Other studies have used beeps or tones, user-selected music levels, or music exposures that don’t result in temporary hearing loss. Three monitoring boards ensured that studies of the UF model met national safety standards for research in humans. Co-investigator Dr Patrick Antonelli, the George T. Singleton Professor and chair of the UF department of otolaryngology, provided on-site supervision of study participant safety, and collaborators at the University of Michigan and Southern Illinois University were involved in study design and safety discussions.
“Dr Le Prell started with a unique idea to create a reversible noise-induced hearing loss and has established solid groundwork for this new model in the use of clinical drug testing,” said Jianxin Bao, an associate professor of otolaryngology and biology and biomedical sciences at Washington University School of Medicine in St Louis, who was not involved in the UF study. “As for every new model, several unknown factors exist for this elegant experiment model, which requires further detailed studies.”
To induce temporary hearing loss, study participants listened to rock or pop music on a digital music player via headphones for four hours at sound levels ranging from 93 dB—the noise level of a power lawn mower—to 102 dB, the noise of a jackhammer. Each participant got a hearing test four times, 15 minutes to 3.25 hours after his or her listening session, as well as follow-up tests one day and one week later. About 15 minutes after the music stopped, those who listened to the highest music levels had lost just a small amount of hearing—6 dB, on average. Hearing returned to normal within 3 hours.
Le Prell’s group will use this testing model in two first-of-a-kind clinical trials of therapeutics designed to determine if noise-induced hearing loss can be prevented in humans. The first study uses a dietary supplement called Soundbites, manufactured by Hearing Health Science, a University of Michigan bioscience spinoff company. Soundbites contains the vitamin A precursor beta carotene, vitamins C and E, and the mineral magnesium. This antioxidant formula, the patent for which Le Prell shares, has reportedly prevented temporary and permanent hearing loss in laboratory animals.
In the other ongoing study, participants take a drug called SPI-1005 produced by Sound Pharmaceuticals Inc. The test capsule contains a new molecule called ebselen that mimics a protective inner ear protein.
The Food and Drug Administration will monitor the studies to ensure openness, analytical rigor, and participant safety as the researchers try to get badly needed drugs onto the market.
“We really want to find out what’s going to work and we want to make it possible for strategies that do work to get in the hands of the people who need them,” Le Prell said.
Source: University of Florida