Cochlear Implants - Electrical, Computer & Biomedical Engineering
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Transcript Cochlear Implants - Electrical, Computer & Biomedical Engineering
Cochlear Implants
Andrew Rosenberg
Department of Electrical, Computer, and Biomedical Engineering – BME 181
The Healthy Human Ear
• Three Sections:
(Outer ear, Middle ear, and Inner ear)
• Sound waves are picked up by the outer ear
and channeled to the middle ear
• The middle ear relays and amplifies the sound
waves headed towards the inner ear
• The sound waves enter the inner ear and
are translated into electrical impulses that
The brain can interpret
Types of Hearing Impairments
1. Conductive Hearing Loss
-Usually deals with the middle ear and sound amplification
-Hearing aids often help in sound amplification
2. Sensorineural Hearing Loss
-Deals with damage to the hair cells throughout the cochlea
-Hearing aids generally do not help sensorineural damage
-Cochlear implants are an innovative way to compensate for the
damaged cochlea
How Does the Cochlear Implant Work?
• Microphone picks up sound waves
• Waves are translated into digital code by the speech processor
• The receiver/stimulator sends correct amount of electrical energy to
electrodes implanted in the cochlea
• Electrodes directly stimulate remaining nerve fibers in cochlea
• Resulting electrical information is processed by the brain
Parts of the Cochlear Implant
External Parts:
1. Microphone
2. Speech Processor
3. Transmitting Coil
5. Transmitter
Internal Parts:
1. Receiver/Stimulator
2. Internal Coil
3. Electrodes
Candidates for a Cochlear Implant
Adults and Children:
1. Severe to profound hearing loss in both ears
2. Receive limited benefit from hearing aids
3. No medical problems that would complicate surgery
4. Strong willingness to participate
5. Realistic expectations (both patient and parents)
Internal and External Procedure
• 2-3 hour surgical procedure (under anesthesia)
-small incisions made to insert receiver/stimulator and electrodes
-patient usually leaves after surgery
• After 4-6 weeks
-patient returns for external fitting and activation
-adjusting and programming can take up to several months
-rehabilitation with audiologists, speech pathologists, and counselors
Cost-Effectiveness
• Considered one of the most cost-effective medical procedures
• Average cost between $50-60,000 for surgery, programming, and
rehabilitation altogether
• Cochlear implants can eliminate much of the $1 million lifetime cost
cost to society for a child w/o a cochlear implant
• Insurance companies help more as time goes on due to the increasing
societal benefit as cochlear implants improve
Foreign Outlook: Cochlear implants completely covered by
• U.K. government for its citizens
• Medicare in Australia
• Seguridad Social in Israel and Spain
Future
• As time goes on
-implants become smaller
-the magnets do not interfere with as much technology
-external parts become less of a burden
-batteries maintain longer life
-implants are upgradable, so when new software comes out
more surgery is unnecessary
Older version of a cochlear implant
Advanced Bionics newest implant
Works Cited
Information:
American-Speech-Language-Hearing Association. Web. 08 Feb. 2013. <http://www.asha.org/public/hearing/Cochlear-Implant/>.
"Cochlear Implants." NIDCD, n.d. Web. 08 Feb. 2013. <http://www.nidcd.nih.gov/health/hearing/pages/coch.aspx>.
"Cochlear Implant." Wikipedia. Wikimedia Foundation, 27 Jan. 2013. Web. 09 Feb. 2013. <http://en.wikipedia.org/wiki/Cochlear_implant>.
"How Hearing Works." HowStuffWorks. N.p., n.d. Web. 08 Feb. 2013. <http://science.howstuffworks.com/life/human-biology/hearing.htm>.
What Is a Cochlear Implant? University of Miami School of Medicine, n.d. Web. 08 Feb. 2013.
<http://cochlearimplants.med.miami.edu/implants/index.asp>.
Pictures:
Kidshealth.org/parent/general/eyes/cochlear.html>
www.advancedbionics.com/us/en/products/hires_90k_implant.html
www.tinnitusformula.com/library/cochlear-implants-and-electrical-stimulation/
www.european-hearing.com