The research team, from the University of New South Wales (UNSW) in Australia, recently published the details of their breakthrough method in the journal Science Translational Medicine.
The researchers say it is well known that if neurotrophins - naturally occurring proteins important for neuron development, function and survival - are delivered to the cochlea of the ear, auditory nerve endings are able to regenerate.
However, carrying out such a technique has proven difficult for scientists. The team says that it has not been possible to localize delivery of neurotrophins to the cochlea safely using drug delivery or viral-based gene therapy.
With this in mind, they looked at whether cochlear implants could be used for gene therapy.
ELECTRICAL PULSES FROM IMPLANT DELIVER DNA TO CELLS TO TRIGGER NEUROTROPHIN PRODUCTION
A cochlear implant is a surgically implanted electronic device that can improve a person's ability to hear and understand speech.
The implant consists of an internal and external part. The internal part is made up of a transmitter that is implanted into the mastoid bone behind the ear, with electrodes inserted into the cochlea - the auditory part of the inner ear.
The external part consists of a microphone and speech processor. Any sounds that these pick up are changed into electrical signals that are sent to the electrodes, which stimulate the auditory nerves and send signals to the brain. These signals are perceived as sound.
In their study, the researchers were able to use electrical pulses delivered from the cochlear implants to send a DNA solution to cells close to the implanted electrodes. These cells were then able to produce neurotrophins, therefore triggering regeneration of auditory nerves.
Jim Patrick, chief scientist and senior vice president of Cochlear Limited, who helped fund the study, says the team's discovery has important implications for the future of cochlear implants and the 324,000 people worldwide who have received them so far.
Senior study author Prof. Gary Housley, of the Translational Neuroscience Facility at UNSW, adds:
"People with cochlear implants do well with understanding speech, but their perception of pitch can be poor, so they often miss out on the joy of music.
Ultimately, we hope that after further research, people who depend on cochlear implant devices will be able to enjoy a broader dynamic and tonal range of sound, which is particularly important for our sense of the auditory world around us and for music appreciation."
The researchers explain their findings further in the video below:
The team says that after using the novel technique for 2 months, neurotrophin production reduced. But they point out that auditory nerve changes could be maintained by the ongoing neural activity that the cochlear implant provides.
Furthermore, the investigators say that the technique would only add a few minutes to future cochlear implant procedures.
"The surgeon who installs the device would inject the DNA solution into the cochlea and then fire electrical impulses to trigger the DNA transfer once the implant is inserted," explains Jeremy Pinyon, first author of the study.
IMPLICATIONS 'FAR BEYOND HEARING DISORDERS'
But ultimately, the researchers say the technique holds benefits for conditions far beyond hearing disorders.
For example, it could be applied to other devices, such as electrode arrays used in deep brain stimulation for the treatment of Parkinson's disease or depression. They note that such integrations could lead to "safe, directed gene therapy."
Study co-author Matthias Klugmann says:
"Gene therapy has been suggested as a treatment concept even for devastating neurological conditions and our technology provides a novel platform for safe and efficient gene transfer into tissues as delicate as the brain."
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