Medical Discovery News
Science permeates everyday life. Yet the understanding of advances in biomedical science is limited at best. Few people make the connection that biomedical science is medicine and that biomedical scientists are working today for the medicine of tomorrow. Our weekly five-hundred-word newspaper column (http://www.illuminascicom.com/) and two-minute radio show provide insights into a broad range of biomedical science topics. Medical Discovery News is dedicated to explaining discoveries in biomedical research and their promise for the future of medicine. Each release is designed to stimulate listeners to think, question and appreciate how science affects their health as well as that of the rest of the world. We also delve into significant biomedical discoveries and portray how science (or the lack of it) has impacted health throughout history.
Medical Discovery News
I hope I hear you Now
887 I hope I hear you Now
Welcome to Medical Discovery News. I’m Dr David Niesel.
And I’m Dr. Norbert Herzog
In the world, there are one point five billion people who have problems hearing and in twenty-five years, it’ll go up by another billion.
What did you say? Just kidding, that’s a lot of people and Norbert, that may be us soon. Makes me think of a new study that won’t help hearing loss that results from age, but it could reverse genetic causes of it.
The research worked with mice and focused on a gene mutation in Spns-two. The mutation changes the flow of chemicals into auditory sensing cells which is key to hearing.
We hear when sound waves enter the ear canal and cause the ear drum to vibrate. The vibrations are amplified by three small bones in the middle ear and stimulate the fluid-filled inner ear. Waves move tiny hairs on sensory cells and this mechanical action causes chemicals to flow into these cells and generate electrical signals.
The mutation disrupted the last part of the process and caused progressive hearing loss in the mice. But when the Spns-two mutation was reversed, the mice could hear again.
They introduced into mice a functional Spns2 gene with a controllable “switch” they could turn on at different times as the mice aged. They found that hearing loss was mostly reversible in young mice but less so as the mice aged.
This confirms gene therapy may be a viable way to reverse even other genetic causes of hearing problems. Since more than half of hearing loss in babies is from gene mutations, the study could be a pathway for finding other gene-focused therapies.
We are Drs. David Niesel and Norbert Herzog, at UTMB and Quinnipiac University, where biomedical discoveries shape the future of medicine. For much more and our disclaimer go to medicaldiscoverynews.com or subscribe to our podcast. Sign up for expanded print episodes at www.illuminascicom.com
