❒ Vision Problems: Some people suffering from problems of the inner ear experience disturbance in normal vision. Blurry or double vision with sensitivity to bright light is also a common problem. Some people may experience bouncing or jumping vision. Any visual stimulation may trigger dizziness. This happens because an inflammatory condition in the inner ear may put some amount of pressure on certain ocular nerves.
Most causes of conductive hearing loss can be identified by examination but if it is important to image the bones of the middle ear or inner ear then a CT scan is required. CT scan is useful in cases of congenital conductive hearing loss, chronic suppurative otitis media or cholesteatoma, ossicular damage or discontinuity, otosclerosis and third window dehiscence. Specific MRI scans can be used to identify cholesteatoma.

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Depending on the cause of your deafness, your doctor may suggest you have a cochlear implant. This device turns sounds into electrical signals and uses them to directly stimulate your auditory nerve, allowing you to hear. One part of the device is put behind your ear on the outside of your head. The other part is surgically implanted in a bone (called the mastoid bone) behind your ear. It will take time and help from a therapist to get used to using a cochlear implant.
Noise exposure is the most significant risk factor for noise-induced hearing loss that can be prevented. Different programs exist for specific populations such as school-age children, adolescents and workers.[87] Education regarding noise exposure increases the use of hearing protectors.[88] The use of antioxidants is being studied for the prevention of noise-induced hearing loss, particularly for scenarios in which noise exposure cannot be reduced, such as during military operations.[89]
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Acoustic neural stimulation is a relatively new technique for people whose tinnitus is very loud or won’t go away. It uses a palm-sized device and headphones to deliver a broadband acoustic signal embedded in music. The treatment helps stimulate change in the neural circuits in the brain, which eventually desensitizes you to the tinnitus. The device has been shown to be effective in reducing or eliminating tinnitus in a significant number of study volunteers.
Prelingual deafness is profound hearing loss that is sustained before the acquisition of language, which can occur due to a congenital condition or through hearing loss before birth or in early infancy. Prelingual deafness impairs an individual's ability to acquire a spoken language in children, but deaf children can acquire spoken language through support from cochlear implants (sometimes combined with hearing aids).[42][43] Non-signing (hearing) parents of deaf babies (90-95% of cases) usually go with oral approach without the support of sign language, as these families lack previous experience with sign language and cannot competently provide it to their children without learning it themselves. Unfortunately, this may in some cases (late implantation or not sufficient benefit from cochlear implants) bring the risk of language deprivation for the deaf baby[44] because the deaf baby wouldn't have a sign language if the child is unable to acquire spoken language successfully. The 5-10% of cases of deaf babies born into signing families have the potential of age-appropriate development of language due to early exposure to a sign language by sign-competent parents, thus they have the potential to meet language milestones, in sign language in lieu of spoken language.[45]

About half of hearing loss globally is preventable through public health measures.[2] Such practices include immunization, proper care around pregnancy, avoiding loud noise, and avoiding certain medications.[2] The World Health Organization recommends that young people limit exposure to loud sounds and the use of personal audio players to an hour a day in an effort to limit exposure to noise.[11] Early identification and support are particularly important in children.[2] For many, hearing aids, sign language, cochlear implants and subtitles are useful.[2] Lip reading is another useful skill some develop.[2] Access to hearing aids, however, is limited in many areas of the world.[2]


Recent research, reported in 2012 achieved growth of cochlear nerve cells resulting in hearing improvements in gerbils,[121] using stem cells. Also reported in 2013 was regrowth of hair cells in deaf adult mice using a drug intervention resulting in hearing improvement.[122] The Hearing Health Foundation in the US has embarked on a project called the Hearing Restoration Project.[123] Also Action on Hearing Loss in the UK is also aiming to restore hearing.[124]
Tinnitus retraining therapy (TRT). This technique is based on the assumption that tinnitus results from abnormal neuronal activity (see "What's going on?"). The aim is to habituate the auditory system to the tinnitus signals, making them less noticeable or less bothersome. The main components of TRT are individual counseling (to explain the auditory system, how tinnitus develops, and how TRT can help) and sound therapy. A device is inserted in the ear to generate low-level noise and environmental sounds that match the pitch, volume, and quality of the patient's tinnitus. Depending on the severity of the symptoms, treatment may last one to two years.
Itching (pruritis) of the ear due to otitis externa is caused primarily by irritation with foreign objects like a cotton ear swabs, hair pins, pens/pencils and matchsticks. The accumulation of water, dust or dirt, sand and other foreign particles that can enter the ear may also be responsible. An allergic reaction may occur or an infection may arise. Certain itchy skin conditions like psoriasis and eczema may also be responsible for itching of the ear canal.
Most people do experience some form of ringing in their ears especially in quiet settings. Most tinnitus results from conditions that cause hearing loss. Stress, fatigue and physical exertion may worsen the ringing in the ears. Managing daily stress well, taking care of your body through good nutrition and exercise, avoiding exposure to loud noises should help to minimize ringing in your ears. Also, try using some sort of white noise device such as an air filter, special noise machine, peaceful nature sounds, or music.
^ Jump up to: a b c Han BI, Lee HW, Kim TY, Lim JS, Shin KS (March 2009). "Tinnitus: characteristics, causes, mechanisms, and treatments". Journal of Clinical Neurology. 5 (1): 11–19. doi:10.3988/jcn.2009.5.1.11. PMC 2686891. PMID 19513328. About 75% of new cases are related to emotional stress as the trigger factor rather than to precipitants involving cochlear lesions.
If you develop tinnitus, it's important to see your clinician. She or he will take a medical history, give you a physical examination, and do a series of tests to try to find the source of the problem. She or he will also ask you to describe the noise you're hearing (including its pitch and sound quality, and whether it's constant or periodic, steady or pulsatile) and the times and places in which you hear it. Your clinician will review your medical history, your current and past exposure to noise, and any medications or supplements you're taking. Tinnitus can be a side effect of many medications, especially when taken at higher doses (see "Some drugs that can cause or worsen tinnitus").
Your ear has three main parts: outer, middle and inner. You use all of them in hearing. Sound waves come in through your outer ear. They reach your middle ear, where they make your eardrum vibrate. The vibrations are transmitted through three tiny bones, called ossicles, in your middle ear. The vibrations travel to your inner ear, a snail-shaped organ. The inner ear makes the nerve impulses that are sent to the brain. Your brain recognizes them as sounds. The inner ear also controls balance.
^ Flamme GA, Deiters K, Needham T (March 2011). "Distributions of pure-tone hearing threshold levels among adolescents and adults in the United States by gender, ethnicity, and age: Results from the US National Health and Nutrition Examination Survey". International Journal of Audiology. 50 Suppl 1: S11-20. doi:10.3109/14992027.2010.540582. PMID 21288063.
Conductive hearing loss (CHL) occurs when there is a problem transferring sound waves anywhere along the pathway through the outer ear, tympanic membrane (eardrum), or middle ear (ossicles). If a conductive hearing loss occurs in conjunction with a sensorineural hearing loss, it is referred to as a mixed hearing loss. Depending upon the severity and nature of the conductive loss, this type of hearing impairment can often be treated with surgical intervention or pharmaceuticals to partially or, in some cases, fully restore hearing acuity to within normal range. However, cases of permanent or chronic conductive hearing loss may require other treatment modalities such as hearing aid devices to improve detection of sound and speech perception.
"We're looking at the threshold that which you can hear sounds the softest, and you're usually pressing a button or raising your hands or somehow responding to when you hear those sounds. And we're evaluating the entire auditory system in that process - not just with the earphones, but we do some other tests to evaluate your middle ear and the inner ear, as well."
For basic screening, a conductive hearing loss can be identified using the Rinne test with a 256 Hz tuning fork. The Rinne test, in which a patient is asked to say whether a vibrating tuning fork is heard more loudly adjacent to the ear canal (air conduction) or touching the bone behind the ear (bone conduction), is negative indicating that bone conduction is more effective that air conduction. A normal, or positive, result, is when air conduction is more effective than bone conduction.

This is a very structured approach to managing tinnitus. Basically, TRT assumes that the tinnitus has been prioritised as an important signal. TRT uses sounds at a particular level to try to reduce the priority of the tinnitus so that you no longer hear it. It is based on the idea that we can get used to sounds, e.g. the sound of the fridge or air conditioner, so we can also get used to this sound of tinnitus. The process of getting used to the tinnitus sound is called habituation. TRT uses sound generators and counselling to attempt to retrain how the brain processes sound so that you habituate to the tinnitus. Most people working in the tinnitus field will use elements of TRT but the strict method is not frequently used because there is limited evidence for its effectiveness.

Tinnitus may be classified in two types: subjective tinnitus and objective tinnitus.[3] Tinnitus is usually subjective, meaning that the sounds the person hears are not detectable by means currently available to physicians and hearing technicians.[3] Subjective tinnitus has also been called "tinnitus aurium", "non-auditory" or "non-vibratory" tinnitus. In rare cases, tinnitus can be heard by someone else using a stethoscope. Even more rarely, in some cases it can be measured as a spontaneous otoacoustic emission (SOAE) in the ear canal. This is classified as objective tinnitus,[3] also called "pseudo-tinnitus" or "vibratory" tinnitus.
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