Hearing aid

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A hearing aid is a device used to help the hard-of-hearing hear sounds better. In the past, a funnel-like amplification cone, called an "ear trumpet" or "ear horn", was used. Also sometimes used was a desk with a built-in amplifier into which a microphone and earphones could be plugged; these worked better than passive ear trumpets but were not portable.

Now, however, the most common style is a small electronic device that fits into the wearer's ear. The first variety of this device had a rectangular battery pack connected by a thin wire, intended to be held in a pocket. Such "body aids," though much more portable than the desk type, still suffered significant disadvantages because the microphone was not near the user's head, such as clothing noise and being located below the mouth of a person with whom the user was conversing.

During the mid- to late 20th century, hearing aids that were carried in pockets were replaced by a more inconspicuous sort of model in which small zinc-air batteries were placed in the inserted unit itself.

Contents 1 Types of hearing aids 1.1 Body worn aids 1.2 Behind the ear aids (BTE) 1.3 In the ear aids (ITE) 1.4 In the canal (ITC), mostly in canal (MIC) and completely in the canal aids (CIC) 1.5 Open-fit devices 1.6 Eyeglass aids 2 Hearing Aid Technology 2.1 Wireless 2.2 Directional microphones 2.3 Telecoil 2.4 Processing 3 Adjustment to Hearing Aids 4 Hearing Aid Sales 5 External links

Types of hearing aids

There are many types of hearing aids, which vary in size, power and circuitry. Among the different sizes and models are:

Body worn aids

This was the first type of hearing aid, and thanks to developments in technology they are now rarely used. These aids consist of a case containing the components of amplification and an ear mold connected to the case by a cord. The case is about the size of a pack of cards and is worn in the pocket or on a belt. Because of their large size, body worn aids are capable of large amounts of amplification and were once used for profound hearing losses. Today, they have largely been replaced by BTEs

Behind the ear aids (BTE)

BTE aids have a small case that fits behind the ear and conducts sound to the ear through an earmold that is custom made. BTEs can be used for mild to profound hearing losses and are especially useful for children because of their durability and they can easily connect to assistive listening devices such as FM systems for classroom use. BTEs can range from very inconspicuous skin tones to cheerful colors depending on the users preference. Recent innovations in BTEs include miniature "invisible" BTEs with thin hair like sound tubes (see open-fit devices below). These are often less visible than ITEs and some keep the ear canal more open, so listeners may still utilise their residual natural hearing (most helpful for those with normal hearing in the lower frequencies). Ideal for high frequency losses, these miniature versions are generally used for mild to moderate hearing loss.

In the ear aids (ITE)

These devices fit in the outer ear bowl (called the concha); they are sometimes visible when standing face to face with someone. ITE hearing aids are custom made to fit each individual's ear. They can be used in mild to some severe hearing losses. Feedback, a squealing/whistling caused by sound leaking out of the aid and being amplified again, may be a problem for severe hearing losses. Some modern circuits are able to provide feedback regulation or cancellation to assist with this. ITEs are not recommended for young children because their fit cannot be as easily modified as the earmold for a BTE, and the aid must then be replaced frequently as the child grows. By the time a person is 13-16 years old, s/he will probably be able to wear an ITE if it is appropriate for the hearing loss found.

In the canal (ITC), mostly in canal (MIC) and completely in the canal aids (CIC)

ITC aids are smaller, filling only the bottom half of the external ear. You usually cannot see very much of this hearing aid when you are face to face with someone. MIC and CIC aids are even smaller and often not visible unless you look directly into the wearer's ear. They can be used for mild and sometimes moderate losses. CICs are not recommended if you have very good low frequency hearing as the complete plugged up effect may make your voice resonate in your head even if you have them switched off (the "occlusion effect").

Open-fit devices

Recently a new device has come on the market, the "Open-fit" or "Over-the-Ear" OTE Hearing Aid. Usually quite discreet, these are small Behind-the-ear type devices, with a much finer clear tube that runs down into the ear canal. Inside the ear canal, there is a small soft silicone dome or a molded, highly vented acrylic tip that holds the tube in place. There are also devices available which have an external speaker, placed inside the ear canal, and connected to the hearing system itself by a thin cable. The external speaker allows the device behind the ear to be even smaller. These devices are designed to reduce the "occlusion effect", which is the amplification of your own voice when your ears are plugged up (try sticking your fingers in your ears and talking). Open-fit devices are very beneficial for High-Frequency hearing losses, and have been introduced by all major hearing aid companies.

Eyeglass aids

During the late 1950s through 1970s, before in-the-ear aids became common, people who wore both spectacles and hearing aids frequently chose a type of hearing aid that was built into the temple pieces of the spectacles. However, the combination of glasses and hearing aids was inflexible: the range of frame styles was limited, and the user had to wear both hearing aids and glasses at once or wear neither. Today, most people who use both glasses and hearing aids simply use in-the-ear types. There still are some specialized situations where hearing aids built into the frame of eyeglasses can be useful, such as a person with hearing loss mainly in one ear: sound from a microphone on the "bad" side can be sent through the frame to the side with better hearing.

Hearing Aid Technology

Wireless

Image:PhonakCampusS.jpg Recent hearing aids include wireless hearing aids. One hearing aid can transmit to the other side so that pressing one aid's program button simultaneously changes the other aid and both aids change background settings simultaneously. FM (receiving) hearing aids are also now emerging with inbuilt wireless receivers. A separate wireless microphone can be given to a partner to wear in a restaurant, in the car or in another room. The voice is transmitted wirelessly to the hearing aids reducing the effects of distance and background noise.

Many theatres and lecture halls are now equipped with assistive listening systems that transmit the sound directly from the stage; audience members can borrow suitable receivers and hear the program without background noise.

Directional microphones

Many hearing aids now have directional microphones, which can be a major improvement in crowded places such as restaurants and open-plan offices, because the directional microphone allows the user to focus on whoever is directly in front with reduced interference from conversations behind and to the sides. It is common for such a hearing aid to have both a directional microphone and an omnidirectional microphone and a switch that lets the user choose between hearing in all directions versus hearing only in the direction his or her head is facing. Some more-advanced models can electronically subtract signals so the user hears the directional signal minus the omnidirectional signal for improved background noise rejection.

Telecoil

Telecoils (T-coils) allow different sound sources to be directly connected to the hearing aid, improving sound quality and allowing the hearing aid wearer to easily perceive the signal of interest in almost any environment, and regardless of background noise. They can be used with telephones, FM systems, induction loop systems and public address systems.

T-coils are comprised of a metal core (or rod) around which ultra-fine wire is coiled. T-coils are also called induction coils because when the coil is placed in an electromagnetic (EM) field, an alternating electrical current is induced in the wire (Ross, 2002b; Ross, 2004). The T-coil detects EM energy and transduces (or converts) it to electrical energy. T-coils can also be used to pick up magnetic signals, just as a microphone picks up an acoustic signal; the T-coil then sends the signal to the hearing aid circuit or processor for amplification.

DAI-direct audio input allows the hearing aid to be connected to an external audio source like a CD player or an assistive listening device (ALD). This is preferred by many users, as opposed to using a T-coil with a standard set of headphones, as there is less interference (usually heard as a buzzing noise).

Processing

The inside mechanisms of hearing aids vary among devices, even if they are the same style. Three types of circuitry, or electronics, are used:

• Analog/Adjustable: The hearing professional (Audiometrist,Hearing Instrument Specialist, Hearing Aid Dispenser orAudiologist) determines the volume and other specifications you need in your hearing aid, and then a laboratory builds the aid to meet those specifications. The hearing professional retains some flexibility to make adjustments. This type of circuitry is generally the least expensive.

• Analog/Programmable: The hearing professional uses a computer to program your hearing aid. The circuitry of analog/programmable hearing aids will accommodate more than one program or setting. If the aid is equipped with a remote control device, the wearer can change the program to accommodate a given listening environment. Analog/programmable circuitry can be used in all types of hearing aids.

• Digital/Programmable: The hearing professional programs the hearing aid with a computer and can adjust the sound quality and response time on an individual basis. Digital hearing aids use a microphone, receiver, battery, and computer chip. Digital circuitry provides the most flexibility for the hearing professional to make adjustments for the hearing aid. Digital circuitry can be used in all types of hearing aids and is typically the most expensive. However, digital hearing aids can be specially programmed with multiple programs for quiet situations, background noise reduction, music listening and directionality. Many also have more powerful feedback-reduction and/or cancellation technology.

Adjustment to Hearing Aids

For the majority of users, hearing aids will not completely restore or fix hearing loss; they are an aid to make sounds accessible to those who have hearing loss. Two problems occur with hearing loss that cannot be assisted by hearing aids:

• When the auditory cortex of the brain does not receive input/stimulation (i.e. what happens in hearing loss), this part of the brain may start to lose cells, and the ability to process sound. This is most common with more severe hearing losses, and cannot be reversed with hearing aids. Although this cell loss is worse in severe hearing loss, it is seen in all amounts of hearing loss and is caused by sensory deprivation.
• Damage to the hair cells of the inner ear result in sensorineural hearing loss. When these hair cells are damaged, a person loses some ability to discriminate between sounds. This will likely cause decreased ability to understand speech. In this case, amplifying speech (as a hearing aid does) does not always improve speech understanding.

Multiple follow-up visits are common, particularly for new hearing aid users. The most common complaint about hearing aids, especially when someone starts wearing them for the first time, is that the sound of their own voice is too loud or that it sounds like they are talking into a barrel. Most hearing aid users will adjust to the sound of their own voices within several months if the aids are worn regularly. If the problem persists, ask your dispenser or audiologist if any adjustments can be made to the hearing aid.

Hearing Aid Sales

Buyers of hearing aids need to consult expert advice through audiologists or audiometrists (experts who conform to local or national licencing requirements of the country concerned), to have a pure tone audiometry hearing test carried out, in order to ‘custom-fit’ the most suitable hearing aid according to the auditory health conditions of the buyer or person who is hard of hearing.

Hearing aids are often advertised at widely varying prices and services. It is in this context that the hearing aids obtained must be appropriate to the hearing needs of the potential buyer rather than his being swayed by possible price variations that may be offered. It is the over-all expertise of the hearing-aid specialist or dispenser, accompanied by their advice, as well as the after-sale service that is offered, that is more important than any other considerations. A badly fitting aid or one unsuitable for the wearer is of no use to him.

External links

• Healthy Hearing Hearing aid and hearing loss information site.
• American Academy of Audiology Find an Audiologist, and get more information on hearing loss.
• Choosing a Hearing Aid.
• Questions to ask when purchasing a hearing aid
• Using hearing aids with bluetooth (hearing aid - cellphone connection (technical matters)).
• Why I Love My Hearing Aidaf:Gehoorapparaat

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