“HI, VANESSA! Nice to see you!” It feels good to hear those words when I see people I know. But I take it for granted that I have even heard that greeting—and, in fact, all other sounds. I never think about how I’m hearing things, how my brain is translating sounds into meaning.
Yet the process is fascinating. The journey of a sound from outside the ear and into the brain, which takes only milliseconds, is mind-bendingly elaborate. First, the sound waves enter each ear and vibrate the paper-thin eardrum. That vibration moves two small bones behind it, which dance in sync with the sound waves’ vibrations.
THE TRUE IMPACT OF HEARING LOSS IS BECOMING CLEAR: IT’S A MAJOR HEALTH ISSUE
Then a third bone sitting against the cochlea starts to vibrate, and things get really interesting. The cochlea is a pea-sized, bony structure shaped like a snail shell and filled with fluid. It’s lined with tens of thousands of hair cells topped with bundles of miniature tubes called stereocilia. That vibrating third bone beats against the cochlea, like knocking on a door. The cochlea’s fluid sways, and the hair cells wave like sea anemones. That movement causes the hair cells to release chemical neurotransmitters, triggering a series of electrical messages that
