Bone conduction is an extraordinary form of auditory perception that bypasses conventional ear-based hearing. Simply put, bone conduction is the process by which we perceive sound through bones in the skull.
Audiologists and Speech-Language Pathologists are very familiar with the concept of bone conduction. We know that if there is loss of hearing through the ear canal, sound through bone conduction can still work to perceive sound by bypassing, and standing in for, the tympanic membrane (eardrum).
Bone conduction hearing has huge implications for people with hearing loss, but did you know it can be used with great results for those with normal hearing as well?
First, you’ll need to know a little about the cochlea (ko-klee-uh) (Greek for snail). The cochlea is a snail-shaped structure found in the inner ear that is filled with fluid. When a sound enters the ear through the usual route—the ear canal—the stimulus vibrates the eardrum which then sets into motion fluid in the cochlea. The fluid stimulates tiny hairs which attach to nerves that send the message to the brain for processing. Bone conduction is the way by which we can “cut out the middle man” and send the message directly to the cochlea.
Have you ever heard a recording of your voice and thought, “Wow! That doesn’t sound like me!” Well, there’s a reason for that.
When you listen to your own voice, you’re getting the sound stimulus from both your ear canal and bone conduction. This augments the stimulus and changes the way your voice sounds to you. When you hear a recording of your voice, you’re hearing the version of voice that everyone else hears and, you’re hearing it ten times faster than through the ear canal.
Bone conduction hearing has played a pivotal role across various fields. Its application spans from aiding legendary composers in overcoming hearing challenges to enhancing communication in demanding military environments. Additionally, its significance in aural rehabilitation has opened new avenues for treating hearing impairments, offering an alternative hearing mechanism. This technology demonstrates a unique intersection of science, history, and health, highlighting the adaptability and evolution of human sensory perception.
Most people know that the pianist composer, Beethoven, had progressive hearing loss from the time he was twenty-six years old. By the time he was forty-four, he had become almost entirely deaf.
There is documentation that talks about how he used bone conduction as a compensatory strategy for his hearing loss. While composing, he would bite down on a rod (such as a pencil) and touch it to the piano sounding board in order to perceive the sounds of the piano through his teeth and bones of the skull. Can you imagine?
Tactical bone conduction headsets were used long before they became readily available to the public. The military used them as a way to effectively and discretely communicate with one another without diminishing their situational awareness—the ability to be vigilant to their surroundings.
Aural rehabilitation—the process of identifying and treating hearing loss—includes methods that use sound through bone conduction as a primary source of auditory stimulation so that people can continue to perceive sound.
Aural rehabilitation can include the use of amplification devices, such as hearing aids that can be placed inside the ear canal or on the bones of the skull (usually attached to the skull directly behind the ear). For people who have hearing loss as a result of damage or malformation of the external ear, bone conduction is a great option.
So why would someone with normal hearing want to listen through bone conduction? Here are a few reasons:
Read an interesting article about bone-conduction headphones here. If you want to find out more about the difference between hearing and listening and learn tips on how to become more attentive, read our dedicated article.
Neuroplasticity, or the brain’s ability to change and compensate, was a major discovery in the early 1940s. It changed the way we think about the ability to rehabilitate and “train” our brains. The leading bone conduction headphones manufacturer, Aftershoksz®, teamed up with Sound For Life, Ltd., to create the Forbrain® bone conduction headphones. They have been designed to tap into our ability to train our brains by augmenting the frequencies we hear and capitalizing on the brain’s attention centers.
A slight shift in frequencies of the sounds heard through these headphones attracts the attention of your brain just enough to make it work that much harder to process it. Like a muscle, the more it’s challenged, the more the brain grows. And all you have to do is wear them.
Bone conduction is a remarkable auditory process offering unique benefits for both those with hearing impairments and individuals with normal hearing. The integration of bone conduction in technology showcases its versatility in improving communication, speech therapy, and even cognitive functions through neuroplasticity. This innovative approach to hearing underscores our continuing exploration into the potentials of human perception and technology's role in enhancing it.