Can Neurotechnology Defeat Tinnitus & Hearing Loss?

Like many of us, you are getting on in years. Whether through disease or simple wear and tear, the delicate mechanisms of your inner ears aren’t quite what they used to be. You might be hearing spurious tones, or just not hearing some things at all. If only you could get back your younger ears. Well, could I interest you in a neuroprosthesis?

Neuralink, a start-up company founded by Elon Musk, is developing novel neurotechnologies using brain implants that promise to treat a variety of medical conditions. One of their stated goals is to develop technology that would help remedy aged or damaged hearing. Although Neuralink’s research lies at the cutting edge of medical science, there is a technological precedent: cochlear implants.

For many in the deaf community, deafness is not considered to be an obstacle but rather is simply a way of life. For others, a cochlear implant offers a dramatic alternative. A cochlear implant is a type of neuroprosthesis. Electrodes are placed along the cochlea; electrical impulses stimulate the cochlear nerve in a manner akin to natural mechanical stimulation of hair cells inside the ear. An external device containing a microphone, a speech processor, and a transmitter, delivers an audio signal to a receiver in the implant. The cochlear nerve sends signals to the brain, which creates a sensation of hearing. You might have seen videos of people who hear sound for the first time; their reactions are extraordinary.

Neuralink is working on neuroprosthesis technology that might take medical implants to a whole new level; Musk described the interface as a “digital layer above the cortex” in which a large number of electrodes are implanted robotically. The electrodes both send and receive electrical neurological signals; these have been described as “analog pixels” that interpret and control groups of neurons via software. In other words, the interface would allow the human brain to control external devices through thoughts, and also permit external control of the brain’s sensations.

Some of Neuralink’s announced applications include neurological disorders caused by brain and spinal injuries, Parkinson’s disease, epilepsy, and common conditions such as insomnia, depression, and tinnitus. Let’s consider the latter condition in a little more detail.

Simply stated, subjective tinnitus is the perception of sound when there is no physical sound present. It is often characterized as a ringing sound but it may also be perceived as a buzzing or roaring. The sound may be soft or loud, high or low in pitch, and intermittent or continuous; in some cases, muscle motions effect the sound.

Tinnitus is the result of damage to the vestibulocochlear nerve that connects the inner ear with the brain. Such damage also manifests itself as hearing loss thus tinnitus is often present when there is hearing loss. Tinnitus is a fairly common condition particularly for people over 60 years of age; this demographic will also experience age-related hearing loss (presbycusis). In addition, exposure to loud sounds over time that leads to hearing loss can also result in tinnitus (another good reason to use ear plugs).

It is important to note that most people will perceive some “noise” in an otherwise quiet room; tinnitus is a more pronounced condition; its magnitude can range from annoying to severe and can cause anxiety and depression, and can disrupt sleep and concentration. The hardships of tinnitus can be mitigated to some extent by masking the sound or simply learning to tolerate it, but there is no medication or cure for the condition. Which brings us to Neuralink.

Details have not been disclosed (and perhaps haven’t been invented yet) but Neuralink’s technology would presumably target the area of the brain that produces the tinnitus “sound” and defeat it; perhaps another signal could be applied to the brain to quiet the signals that produce the perception of sound. But why stop with a tinnitus treatment? Surely the technology could be extended to restore hearing acuity in general by bypassing the cochlea. An audio signal from an external microphone could be coded and directed to the appropriate place in the brain.

Will Neuralink some day address conditions such as tinnitus and hearing loss, as well as more complex conditions, or for that matter, will it address any condition at all? Some observers contend that the company’s demonstrations are nothing new and that the entire premise is, at best, highly speculative. In any case, after pushing back their timeline several times, the company now says it will start human testing sometime in 2023; there is a patient registry on neuralink.com.

The question is, when Neuralink asks for volunteers for clinical trials to treat tinnitus, would you raise your hand? Before you answer, imagine that you are listening to your favorite music or just an ordinary conversation. Now superimpose a steady, unrelenting tone over that. Would that torment persuade you to act as a test subject?

Ken C. Pohlmann is an electrical engineer specializing in audio topics as a consultant and writer. He is Professor Emeritus at the University of Miami.

COMMENTS
Traveler's picture

As a person who has had sever T for a decade and a half I can tell you that the market is filled with useless and expensive gimmicks of all sorts, none of them seem to do anything useful.

John_Werner's picture

I am no longer what I'd honesty describe as an audiophile and it's not due to lack of interest in my more senior years. No, it's because I can't consider myself either as objective, or subjective for that matter, as I was in my younger years. Tinnitus sneaks up apparently as I never noticed it until about six or seven years ago. I think when you notice it, well, it's to a point denial is useless. In fact, as you become aware of it I think it seems worse even if it's not technically so. As such I do not feel I can be a "real" audiophile and that is something I have regret over. Was it due to this, that, or the other? Who knows when the corner was turned. With me it did so when I was pressed into working in my shoe repair shop as opposed to my shoe store. The reason is the loud grinder. I never used ear protection in all of my 60+ years that I did occasional shop work and had no problems. That, apparently, changed when I became the main repair person and worked there daily. It doesn't happen in a way you realize it in instances such as this, until you finally do. The fact that new science is going on with the brain and possible interfaces gives hope. Hope, because the only things I've read about tinnitus I believe are that doctors have no clue how to effectively treat or cure it, and that, in fact, it arises not from the ear itself, but the way the brain has adapted to deal with the sounds themselves. It makes sense since it is sometimes changing for no reason even though something is constant. I mean our ears don't change and then change back...the background of my tinnitus does change a bit within a range it seems Anyway it is something I have learned to live with, often ignoring and sometimes knowing I simply do not hear as well otherwise. As a sufferer hoping for a treatment I do believe it will be very connected to the how the brain is processing what the ear picks up. I think medical science and brain science is headed in the right direction for a possible solution sometime in the future. That future can't be too soon though and I believe the complexities will, sadly, make this a longer process than people like me hope for.

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Neurotechnology holds promise in combating tinnitus and hearing loss by targeting the brain's auditory pathways. the informed pregnancy projectInnovations such as neurostimulation and brain-computer interfaces aim to retrain neural responses and improve auditory processing. While research is ongoing, these technologies offer hope for reducing tinnitus symptoms and enhancing hearing capabilities, potentially transforming treatment options and patient outcomes in the future.

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