What is A Cochlear Implant? | How Hearing Aids and Implants Help Recover Hearing Loss
Summary
TLDRThis video script discusses cochlear implants, a solution for individuals with profound hearing loss. It explains the types of hearing loss and how conventional hearing aids are insufficient for severe cases. The script highlights the history of cochlear implants, from Dr. William House's single-channel device to Dr. Graeme Clarke's multichannel innovation. It details the mechanism of cochlear implants, which bypass nonfunctioning hair cells by stimulating the auditory nerve fibers, and the importance of electrode channels for sound perception. The next video will address the criteria for cochlear implant candidacy.
Takeaways
- 👂 Hearing loss can significantly impact an individual's ability to react quickly to sounds, like an alarm.
- 🔈 Hearing loss is categorized into conductive, sensorineural, or a combination of both types.
- 👶 Congenital hearing loss affects about 20 per 1,000 newborns, while presbycusis affects nearly 40% of the population over 65.
- 📢 Conventional hearing aids amplify sound but are ineffective for those with near-complete deafness.
- 💡 Cochlear implants were pioneered by Dr. William House in the 1960s and later improved by Dr. Graeme Clarke in the 1970s.
- 🌐 Cochlear implants have seen advancements in battery life, connectivity, waterproofing, and sound quality.
- 🏥 The implant consists of an external unit and an internal unit that is surgically implanted.
- 🎧 The external unit's microphone captures sound, which is then transmitted to the internal unit via a radio inductive link.
- 🔌 The internal unit's receiver converts signals into electrical impulses sent to the cochlea via an electrode array.
- 🎵 Cochlear implants stimulate the auditory nerve fibers, bypassing nonfunctioning hair cells and allowing sound perception.
- 📈 The more electrode channels an implant has, the better the sound and speech perception for the user.
Q & A
What is the impact of hearing loss on a person's ability to react to sudden sounds like an alarm?
-A person suffering from hearing loss may have a small chance to react as quickly to sudden sounds such as an alarm due to their impaired hearing ability.
How is hearing loss categorized?
-Hearing loss is broadly classified into three types: conductive, sensorineural, or a mixture of both.
What is the difference between conductive and sensorineural hearing loss?
-Conductive hearing loss means the problem lies in the outer or middle part of the ear, while sensorineural hearing loss indicates issues with the inner ear, particularly when the hearing nerve cells stop working properly.
What is the incidence rate of congenital hearing loss in some countries?
-The incidence of congenital hearing loss in newborn babies can reach 20 cases per 1,000 births in some countries.
What percentage of the population older than 65 experiences hearing loss?
-Presbycusis, or hearing loss in people older than 65, affects almost 40% of the population.
How do conventional hearing aids assist patients with hearing loss?
-Conventional hearing aids help patients with a lesser degree of hearing loss by amplifying the incoming sound.
What is a cochlear implant and why is it used?
-A cochlear implant is a medical device used to help people with near to complete deafness by stimulating the nerves and parts of the inner ear that are not functioning properly.
Who is considered the main pioneer of cochlear implants?
-Dr. William House, an American otologist, is considered the main pioneer of cochlear implants, having developed a single-channel device in the 1960s.
What significant improvement was made to cochlear implants in the 1970s?
-In the 1970s, Dr. Graeme Clarke from Australia improved the design of cochlear implants by introducing a multichannel intracochlear device that allowed patients to hear without the need for lip reading.
What are some of the improvements made to cochlear implants over the years?
-Improvements to cochlear implants include enhancements in battery life, integration of Bluetooth, waterproofness, and the quality of sound.
How does the outer unit of a cochlear implant work?
-The outer unit of a cochlear implant, which consists of a microphone and transmitter, converts sound into a coded signal that is transmitted to the internal unit through the scalp using a radio inductive link.
How does the cochlear implant stimulate the auditory nerve fibers?
-The cochlear implant stimulates the auditory nerve fibers by converting the received signals into electrical output, which is then transmitted to the cochlea via an electrode array.
What does the tonotopic organization of the cochlea mean for cochlear implant users?
-The tonotopic organization of the cochlea means that different parts of the cochlea are better suited to detect specific frequencies of sounds, allowing the electrode array of a cochlear implant to stimulate different parts of the cochlea according to the frequency of sound.
How does the number of channels in a cochlear implant electrode affect sound and speech perception?
-The more channels a cochlear implant electrode has, the better the perception of sound and speech, as each channel can stimulate different parts of the cochlea for specific frequencies.
Outlines
👂 Understanding Hearing Loss and Cochlear Implants
This paragraph introduces the challenges faced by individuals with hearing loss, such as delayed reaction to alarms, and explains that the degree of hearing loss can range from slight to profound. It categorizes hearing loss into three types: conductive, sensorineural, and a combination of both. Conductive hearing loss is associated with issues in the outer or middle ear, while sensorineural is linked to problems in the inner ear, particularly when the hearing nerve cells malfunction. The paragraph also highlights the prevalence of hearing loss, including congenital hearing loss in newborns and presbycusis in older adults. It discusses the limitations of conventional hearing aids and how cochlear implants offer a solution for those with near-complete deafness by stimulating the nerves and parts of the inner ear. The historical development of cochlear implants is traced from early experiments with electrical rods to the pioneering work of Dr. William House and Dr. Graeme Clarke, who improved the technology to allow for multichannel stimulation and better sound perception. The paragraph concludes with a mention of ongoing improvements in cochlear implant technology and the existence of established companies and countries developing their own prototypes.
Mindmap
Keywords
💡Hearing Loss
💡Conductive Hearing Loss
💡Sensorineural Hearing Loss
💡Cochlear Implant
💡Dr. William House
💡Dr. Graeme Clarke
💡Electrode Array
💡Tonotopic Organization
💡Presbycusis
💡Hearing Aid
💡Bluetooth
Highlights
Hearing loss can impact a person's ability to react quickly to alarms or other sounds.
Hearing loss is categorized into conductive, sensorineural, or a combination of both.
Conductive hearing loss is related to issues in the outer or middle ear.
Sensorineural hearing loss involves problems with the inner ear and the hearing nerve cells.
Hearing loss is a prevalent health issue, with congenital cases affecting 20 per 1,000 newborns in some regions.
Presbycusis, or age-related hearing loss, affects nearly 40% of individuals over 65.
Conventional hearing aids amplify sound for those with mild to moderate hearing loss.
Cochlear implants are designed for individuals with near to complete deafness.
Early cochlear implant experiments involved inserting electrical rods into the ear.
Dr. William House is credited with pioneering the single-channel cochlear implant in the 1960s.
Dr. Graeme Clarke improved cochlear implant design with a multichannel device in the 1970s.
Modern cochlear implants have seen advancements in battery life, Bluetooth connectivity, and sound quality.
Several companies produce cochlear implants, and many countries have developed their own prototypes.
Cochlear implants consist of an external unit and an internal unit implanted surgically.
The external unit's microphone and transmitter convert sound into a coded signal.
The internal unit's receiver converts signals into electrical outputs that stimulate the auditory nerve.
The cochlea is tonotopically organized, detecting different sound frequencies at various locations.
Cochlear implant electrodes are a group of wires stimulating different cochlear parts based on sound frequency.
The more channels an implant has, the better the sound and speech perception for the patient.
The next video will discuss criteria for determining if a patient needs a cochlear implant.
Transcripts
Cochlear Implant Part 1
A person suffering from hearing loss
has a small chance to be able to react as quickly
when, for example, an alarm sets off.
Hearing Loss
The degree of hearing loss
can vary from slight to profound.
Hearing loss is broadly classified into three types:
conductive,
sensorineural,
or a mixture of them.
Conductive means the problem lies in the outer
or middle part of the ear.
Sensorineural means the inner ear,
especially when the hearing nerve cells stop working properly.
Hearing loss is among the most common health care burdens.
Its incidence in newborn babies,
called congenital hearing loss,
can reach 20 cases per 1,000 births in some countries.
Similarly,
presbycusis or hearing loss in people older than 65
happens to almost 40% of the population.
The conventional hearing aid
can help patients with a lesser degree of hearing loss
by amplifying the incoming sound.
But in other cases,
hearing aids cannot help.
Cochlear Implant
To help people with near to complete deafness,
the nerves, along with parts of the inner ear,
need to be stimulated.
In the past,
some scientists had experimented
with inserting electrical rods or wires into the ear,
with patients reporting bubbling or chirping sounds.
However,
the main pioneer of cochlear implants
is considered to be American otologist,
Dr. William House,
who in the 1960s pioneered a single-channel device
that could assist in hearing and lip-reading.
Later on,
in the 1970s,
Dr. Graeme Clarke from Australia
improved the design
and introduced a multichannel intracochlear device
that allowed patients to hear
without the need for lip reading.
Many improvements have been made since then,
such as on the battery life,
Bluetooth,
waterproofness,
and the quality of sound.
Currently,
there are some established companies
already creating cochlear implants
and many countries have also created
their own original cochlear implant prototypes.
Mechanism
The cochlear implant consists of an outer unit
that is worn by the patient
and an inner unit
that is surgically implanted.
The outer unit,
consisting of a microphone and transmitter,
converts sound into a coded signal
which is transmitted through the intact skin of the scalp,
to the receiver of the internal unit,
using a radio inductive link,
just like a mobile phone signal.
The receiver converts these signals
into electrical output
which is transmitted to the cochlea
via the electrode array.
This causes stimulation of the auditory nerve fibers
and perception of hearing.
This way,
the cochlear implant bypasses the nonfunctioning hair cells of the cochlea.
The cochlea is tonotopically organized,
which means that different parts of the cochlea
are better suited to detect specific frequencies of sounds.
The electrode that is placed into the cochlea
is, in fact, a group of individual wires,
each ends at a contact point along the silicone casing.
They stimulate different parts of the cochlea
as per the frequency of sound.
Hence,
the more channels a cochlear implant electrode has,
the better the perception of sound and speech.
In the next video,
the criteria to decide whether an implant is needed by a patient
will be discussed.
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