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Audiologists don’t simply treat hearing loss, they also provide solutions for a number of hearing and balance disorders, from symptoms of dizziness to conditions like Meniere’s disease. The following is an overview of several ways an issue with your auditory system can impact your inner balance.
Dizziness is a symptom not a disease. It may be defined as a sensation of unsteadiness, imbalance or disorientation in relation to an individual's surroundings. The symptom of dizziness may vary widely from person to person and be caused by many difference diseases or conditions. It varies from a mild unsteadiness to a severe whirling sensation known as vertigo. As there is little representation of the balance system in the conscious mind, it is not unusual for it to be difficult for the patient to describe their symptom of dizziness to the physician. In addition, because the symptom of dizziness varies so widely from patient to patient and may be caused by many different diseases, the physician commonly requires testing to be able to provide the patient with some knowledge about the cause of their dizziness. Dizziness may or may not be accompanied by a hearing impairment
The ear is divided into three parts: external ear, middle ear and inner ear.
The external ear structures gather sound and direct it toward the eardrum. The middle ear chamber consists of an eardrum and three small ear bones. These structures transmit sound vibrations to the inner ear fluid.
The inner ear chamber is encased in bone and filled with fluid. This fluid bathes the delicate nerve endings of the hearing and the balance mechanism.
Fluid waves in the hearing chamber (cochlea) stimulate the hearing nerve endings, which generate an electrical impulse. These impulses are transmitted to the brain for interpretation as sound. Movement of fluid in the balance chambers (vestibule and three semicircular canals) also stimulates nerve endings, resulting in electrical impulses to the brain, where they are interpreted as motion.
The human balance system is made up of four parts, the eye, inner ear, muscles and central nervous system. The brain acts as a central computer receiving information in the form of nerve impulses (messages) from its three input terminals: the eyes, the inner ear, and the muscles and joints of the body. There is a constant stream of impulses arriving at the brain from these input terminals. All three systems work independently and yet work together to keep the body in balance.
The eyes receive visual clues from light receptors that give the brain information as to the position of the body relative to its surroundings. The receptors in the muscles and joints are called proprioceptors. The most important ones are in the head and neck (head position relative to the rest of the body) and the ankles and joints (body sway relative to the ground).
The inner ear balance mechanism has two main parts: three semicircular canals and the vestibule. Together they are called the vestibular labyrinth and are filled with fluid. When the head moves, fluid within the labyrinth moves and stimulates nerve endings that send impulses along the balance nerve to the brain. Those impulses are sent to the brain in equal amounts from both the right and left inner ear. Nerve impulses may be started by the semicircular canals when turning suddenly, or the impulses may come from the vestibule, which responds to changes of position, such as lying down, turning over or getting out of bed.
When the inner ear is not functioning correctly the brain receives nerve impulses that are no longer equal, causing it to perceive this information as distorted or off balance. The brain sends messages to the eyes, causing them to move back and forth, making the surroundings appear to spin. It is this eye movement (called nystagmus) that creates a sensation of things spinning.
Remember to think of the brain as a computer with three input terminals feeding it constant up-to-date information from the eye, inner ear and muscles and joints (proprioceptors). The brain itself is divided into several different parts. The most primitive area is known as the brainstem, and it is here that processing of the input from the three sensory terminals occurs. The brainstem is affected by two other parts of the brain, the cerebral cortex and the cerebellum.
The cerebral cortex is where past information and memories are stored. The cerebellum, on the other hand, provides automatic (involuntary) information from activities, which have been repeated often.
The brainstem receives all these nerve impulses: sensory from the eyes, inner ear, muscles and joints; regulatory from the cerebellum; and voluntary from the cerebral cortex. The information is then processed and fed back to the muscles of the body to help maintain a sense of balance.
Because the cortex, cerebellum and brainstem can eventually become used to (ignore) abnormal or unequal impulses from the inner ear, exercise may be helpful. Exercise often helps the brain to habituate the dizziness problem so that is does not respond in an abnormal way and does not result in the individual feeling dizzy. An example of habituation is seen with the ice skaters who twirl around, stop suddenly, and do not apparently have any balance disturbance.
Ear dizziness, one of the most common types of dizziness, results from disturbances in the blood circulation or fluid pressure in the inner ear chambers, from direct pressure on the balance nerve or physiologic changes involving the balance nerve or balance mechanisms. Inflammation or infection of the inner ear or balance nerve is also a major cause of ear dizziness.
Any disturbance in pressure, consistency or circulation of the inner ear fluids may result in acute, chronic or recurrent dizziness, with or without hearing loss and head noise. Likewise, any disturbance in the blood circulation to this area or infection of the region may result in similar symptoms. Dizziness may also be produced by an over stimulation of the inner ear fluids, which may be encountered if you spin very fast and then stops suddenly.
Any disturbance affecting the function of the inner ear or its central connections may result in dizziness, hearing loss or tinnitus (head noise). These symptoms may occur singly or in combination, depending upon which functions of the inner ear are disturbed.
Ear dizziness may appear as a whirling or spinning sensation (vertigo), unsteadiness or giddiness and lightheadedness. It may be constant, but is more often intermittent, and is frequently aggravated by head motion or sudden positional changes. Nausea and vomiting may occur, but you should not lose consciousness as a result of inner ear dizziness
Central dizziness is usually an unsteadiness brought about by failure of the brain to correctly coordinate or interpret the nerve impulses which it receives. An example of this is the “swimming feeling” or unsteadiness that may accompany emotional stress, tension states, and excessive alcohol intake. Circulatory inefficiency, tumors or injuries may produce this type of unsteadiness, with or without hearing impairment. A feeling of pressure or fullness in the head is common. Occasionally true vertigo (spinning) may be caused by central problems.
Eye Muscle imbalance or errors of refraction may produce unsteadiness. An example of this is the unsteadiness, which may result when you attempt to walk while wearing glasses belonging to another individual.
Another example of visual dizziness is that occasionally produced if you are seated in a car looking out the side window at passing objects. The eyes respond by sending a rapid series of impulses to the brain indicating that the body is rotating. On the other hand, the ears and the muscle-joint systems send impulses to the brain indicating that the body is not rotating, only moving forward. The brain, receiving these confused impulses (from the eyes indicating rotation, from the ears and muscle-joint systems indicating forward motion) sends out equally confusing orders to various muscles and glands that may result in sweating, nausea and vomiting. When you sit in the front seat looking forward, the eyes, ears and muscle- joint systems work more uniformly, making it less likely to develop carsickness.
Dizziness may be caused by any disturbance in the inner ear, the balance nerve or its central connections. This can be due to a disturbance in circulation, fluid pressure or metabolism, infections, neuritis, drugs, injury or growths.
At times an extensive evaluation is required to determine the cause of dizziness. The tests necessary are determined at the time of examination and may include detailed hearing and balance tests, x-rays, and blood tests. A general physical examination and neurological tests may be advised.
The object of this evaluation is to be certain that there is no serious or life-threatening disease, and to pinpoint the location of the problem. This lays the groundwork for effective medical or surgical treatment.
Any interference with the circulation to the delicate inner ear structures or their central connections may result in dizziness and, at times, hearing loss and tinnitus. These circulatory changes may be the result of blood vessel spasm, partial or total occlusion (blockage), or rupture with hemorrhage.
Inner ear dizziness due to blood vessel spasm is usually sudden in onset and intermittent in character. It may occur as an isolated event in the patient's life or repeatedly in association with other symptoms. If it is recurrent it usually is associated with migraine headache-type symptoms. Predisposing causes include fatigue and emotional stress. Certain drugs such as caffeine (coffee) and nicotine (cigarettes) tend to produce blood vessel spasm or constriction and should be avoided. Blood vessel spasm has been noted to occasionally begin after head injury. Although there may have been no direct injury to the inner ear by the trauma, the spasm may begin to damage the ear.
As you get older, blood vessel walls tend to thicken due to an aging process known as arteriosclerosis. This thickening results in partial occlusion, with a gradual decrease of blood flow to the inner ear structures. The balance mechanism usually adjusts to this, but at times persistent unsteadiness develops. This may be aggravated by sudden position changes such as that encountered when you get up quickly or turn suddenly.
Complete occlusion of an inner ear blood vessel (thrombosis) results in acute dizziness often associated with nausea and vomiting. Symptoms may persist for several days, followed by a gradual decrease of dizziness over a period of weeks or months as the central nervous system and uninvolved ear compensates for the loss of the involved ear.
Occasionally, one of the small blood vessels of the balance mechanism ruptures. This may occur spontaneously, for no apparent reason, or it may be the result of high blood pressure or head injury. Symptoms are the same as those of occlusion.
Treatment of dizziness due to changes in circulation consists of anti-dizziness medications to suppress the symptoms. They also stimulate the circulation and enhance the effectiveness of the brain centers in controlling the symptoms. An individual with this type of dizziness should avoid drugs that constrict the blood vessels, such as caffeine (coffee) and nicotine (tobacco). Emotional stress, anxiety and excessive fatigue should be avoided as much as possible. Often, increased exercise will aid in the suppression of dizziness in many patients by stimulating the remaining function to be more effective.
BPPB is a common form of balance disturbance due to circulatory changes or to loose calcium deposits (cupuliths) in the inner ear. It is characterized by sudden, brief episodes of imbalance when moving or changing head position. Commonly it is noticed when lying down or arising or when turning over in bed. This type of dizziness as its names suggests is benign, related to positional changes and is short-lived. The vertigo brought on by the movement rarely lasts more than a few minutes, is usually self-limited and responds well to treatment. However, it may reoccur in some patients. Treatment involves attempts to reposition the loose particles and keep the dizziness from occurring (Canalith Repositioning Procedure). If this isn’t successful, additional exercises may be recommended. Occasionally, postural dizziness may be permanent and surgery may be required.
Some individuals develop imbalance as a result of the aging process. In many cases this is due to circulatory changes in the very small blood vessels supplying the inner ear and balance nerve mechanism. Fortunately, these disturbances, although they may persist, rarely become worse.
Postural or positional vertigo (see above) is the most common balance disturbance of aging. This may develop in younger individuals as a result of head injuries or circulatory disturbances. Dizziness on change of head position is a distressing symptom, which is often helped by vestibular exercises.
Temporary unsteadiness upon arising from bed in the morning is not uncommon in older individuals. At times this feeling of imbalance may persist for an hour or two. Arising from bed slowly usually minimizes the disturbance. Unsteadiness when walking, particularly on stepping up or down or walking on uneven surfaces, develops in some individuals as they progress in age. Using a cane and learning to use the eyes to help the balance is often helpful.
Imbalance due to ear infection is usually insidious and mild in onset. Such imbalance may occur with or without hearing impairment. As the infection gets closer to the vital balance mechanism in the inner ear, the dizziness becomes more constant and severe in nature, and is often associated with nausea and vomiting.
Control of an ear infection is imperative in this type of dizziness in order to prevent spread of the infection directly into the balance center of the inner ear. Should this develop, serious complications including total loss of hearing in the involved ear may result. If the infection cannot be eliminated by medical treatment, surgery is indicated to remove the infection.
Neuritis is a physiological change that occurs in the nerve after injury by trauma, a virus, autoimmune disease or vascular compression. When this occurs, the balance function is impaired, resulting in a severe, and at times prolonged, episode of dizziness, often followed by some unsteadiness or motion for weeks to years. Fortunately, this balance disturbance usually subsides in time and usually does not recur in the majority of cases. It may be, however, very chronic at a moderate to mild level. Medical treatment is helpful in eliminating symptoms until the central nervous system can compensate for the injured nerve. This usually consists of dizziness- suppressing drugs. On occasion, the central nervous system cannot compensate and surgery may be necessary.
Meniere's disease is a common cause of repeated attacks of dizziness and is thought to be due to (in most cases) increased pressure of the inner ear fluids due to impaired metabolism of the inner ear. Fluids in the inner ear chamber are constantly being produced and absorbed by the circulatory system. Any disturbance of this delicate relationship results in overproduction or underabsorption of the fluid. This leads to an increase in the fluid pressure (hydrops) that may, in turn, produce dizziness that may or may not be associated with fluctuating hearing loss and tinnitus.
A thorough evaluation is necessary to determine the cause of Meniere's disease, if possible. Circulatory, metabolic, toxic and allergic factors may play a part in any individual. Emotional stress, while making the disease worse, does not cause Meniere’s disease
Meniere's disease is usually characterized by attacks consisting of vertigo (spinning) that varies in duration from a few minutes to several hours. Hearing loss and head noise, usually accompanying the attacks, may occur suddenly. Violent spinning, whirling, and falling associated with nausea and vomiting are common symptoms. Sensations of pressure and fullness in the ear or head are usually present during the attacks. The individual may be very tired for several hours after the overt spinning stops.
Attacks of dizziness may recur at irregular intervals and the individual may be free of symptoms for years at a time, only to have them recur again. In between major attacks, the individual may have minor episodes occurring more frequently and consisting of unsteadiness lasting for a few seconds to minutes.
Occasionally hearing impairment, head noise, and ear pressure occur without dizziness. This type of Meniere's disease is called cochlear hydrops. Similarly, episodic dizziness and ear pressure may occur without hearing loss or tinnitus, and this is called vestibular hydrops.
Endolymphatic hydrops is a term that describes increased fluid pressure in the inner ear. In this respect it is similar but not related to glaucoma of the eye fluids. A special clinical form of endolymphatic hydrops is called Meniere's disease. All patients with Meniere's disease have endolymphatic hydrops, but not all patients with hydrops have Meniere's disease.
There may be many causes of endolymphatic hydrops. It occurs widely in people of European decent and rarely in oriental or black people. It may be caused or aggravated by excessive salt intake or certain medications. The symptoms are highly variable. You may have one symptom or a combination of signs. Often there is a combination of hearing changes, disequilibrium, motion intolerance or short dizzy episodes. There may be tinnitus and/or a pressure feeling in the head or ears. The patient does not have the well-defined attacks of Meniere's disease (fluctuating hearing loss, tinnitus and episodes of spinning lasting minutes to hours). Often the division between the two diagnoses may be blurred and difficult to separate, even for the patient. Endolymphatic hydrops may progress to Meniere's disease in some patients.
The treatment of endolymphatic hydrops is similar to that for Meniere's disease. Medications are first used. Diuretics (water pills) are almost always used. Their purpose is to decrease the fluid pressure in the inner ear. In addition to diuretics, other medications may be indicated, depending on the cause of symptoms in each patient's case. If these fail, surgery is sometimes indicated. (See Surgery for vertigo elsewhere in this document).
Treatment of cochlear and vestibular hydrops is the same as for classic Meniere's disease. The treatment of Meniere's disease may be medical or surgical, depending upon the patient's stage of the disease, life circumstances and the condition of the ears. The purpose of the treatment is to prevent the hearing loss and stop the vertigo (spinning).
Treatment is aimed at improving the inner ear circulation and controlling the fluid pressure changes of the inner ear chambers..
Medical treatment of Meniere's disease varies with the individual patient according to suspected cause and magnitude and frequency of symptoms. It is effective in decreasing the frequency and severity of attacks in 80% of patients. Treatment may consist of medication to decrease the inner ear fluid pressure or prevent inner ear allergic reactions. Various drugs are used as anti-dizziness medication.
Vasoconstricting substances have an opposite effect and, therefore, should be avoided. Such substances are caffeine (coffee) and nicotine (cigarettes).
Diuretics (water pills) may be prescribed to decrease the inner ear fluid pressure.
Meniere's disease may be caused or aggravated by metabolic or allergic disorders. Special diets or drug therapy are indicated at times to control these problems.
On rare occasions, gentamycin injections may be used to selectively destroy balance function. This treatment is reserved for patients with Meniere's disease in their only hearing ear or with Meniere's disease in both ears.
Occasionally metabolic disturbances produce dizziness with or without associated hearing loss by interfering with the function of the inner ear or the central nervous system. Occasionally hearing loss may occur without the presence of dizziness.
A change of thyroid function or abnormalities in the blood sugar are the most common metabolic disturbances resulting in dizziness. Rarely, fat metabolism abnormalities may also cause problems resulting in hearing loss and/or dizziness. Thyroid dysfunction is diagnosed by blood tests and treatment consists of taking a thyroid hormone. Abnormalities in the blood sugar are diagnosed, again by blood studies and treatment usually consists of diet control and/or drug therapy. Fat metabolism problems are diagnosed by studies of the fatty acids and cholesterol in the blood. Treatment of these may consist of diet control with or without drug therapy.
Rarely, allergies may cause dizziness and/or vertigo. Allergies are usually diagnosed by obtaining a careful history and occasionally performing a series of skin tests with inhalants and food or blood tests. Treatment usually consists of elimination of the offending agents when possible, or, if this is not possible, by allergy shots to stimulate immunity.
Injury to the head occasionally results in dizziness of long-standing origin. If the trauma is severe, it is usually due to the combined damage to the inner ear, balance nerve and central nervous system. Lesser injury may damage any one, or a combination of these components. The unsteadiness is at times prolonged, and may or may not be associated with hearing loss and head noise as well as other symptoms.
A noncancerous tumor occasionally develops on the balance nerve between the ear and the brain. When this occurs, unsteadiness, hearing loss and head noise may develop. Extensive hearing tests, balance tests and x-rays are necessary to diagnose such tumors.
If the diagnosis of a tumor is established, surgical removal is often recommended. Continued growth of the tumor would lead to complications by producing pressure on vital adjacent nerves and the brain. An operation has been developed which allows the removal of these tumors at an early stage. Best results can be obtained if the tumor is diagnosed early and removed while the only symptoms are hearing loss, dizziness and tinnitus (head noise).
Surgery is indicated when medical treatment fails to control the vertigo. The type of operation selected depends on the degree of hearing impairment in the affected ear, the life circumstances of the individual, and the status of the individual's disease. In some operations the hearing may be occasionally improved following surgery, and in others it may become worse. In most cases it remains the same. Head noise may or may not be relieved, and in some cases may become even more marked.
Surgery is most successful in relieving acute attacks of dizziness. . Some unsteadiness may persist over a period of several months until the opposite ear and the central nervous system are able to compensate and stabilize the balance system.
Surgical procedures include the use of an endolymphatic shunt, selective vestibular neurectomy and labyrinthectomy. The endolymphatic shunt surgery is intended to drain excess endolymph from the inner ear. It is usually performed under general anesthesia and requires hospitalization for one to two days.
Selective vestibular neurectomy is a surgical option where the balance nerve is cut at the point it leaves the inner ear. This procedure has a high success rate of eliminating the bouts of vertigo and usually preserves hearing. However, imbalance may remain.
Labryinthectomy is a surgical procedure where the balance and hearing portions of the inner ear are destroyed. This procedure is only considered for those who have very little hearing remaining in the affected ear. This procedure has a high rate of success but does destroy any remaining hearing and imbalance may continue to be a problem for the patient.
Typically, a physical therapist evaluation of patients with vestibular or balance disorders takes approximately 60-90 minutes. The evaluation begins with a history of the patient's symptoms. This includes how long the patient has been symptomatic, how long the symptoms last, general activity level and medications that the patient is currently taking. Range of motion, strength, coordination, balance and various sensory systems are also assessed. Patients are asked to perform transitional movements such as rolling, supine to sit and sit to stand. This is to determine whether these motions produce or increase symptoms. One of the most difficult things for patients with vestibular disorders to do is walk and move the head. Different combinations of head and neck movements are performed during gait to provoke symptoms. Balance is also tested on a firm surface and again on a compressible surface with eyes open and closed. Time tests of balance are performed with eyes open and closed, while standing on one foot and with feet aligned as if on a tightrope.
Following the evaluation, a treatment plan is developed. The treatment plan may consist of habitual exercises, balance retraining exercise and usually a general conditioning program. The goal of habituation exercises is to decrease the patient's symptoms of motion provoked dizziness or lightheadedness. The exercises are chosen to address the patient's particular problems that were discovered during the evaluation. The length and intensity of the program depends upon the patient's previous activity level and how easily their symptoms are provoked. The patient must consistently perform all the exercises as described in their treatment program to achieve the goals of improving their balance and decreasing their dizziness. Typically, the exercises are performed twice a day. Patients are advised not to avoid positions that provoke symptoms unless they are unsafe.
There are many causes of dizziness. This dizziness may or may not be associated with hearing loss. In most instances the distressing symptoms of dizziness can be greatly benefited or eliminated by medical or surgical management.
Schedule a visit with one of our hearing professionals and find out what we can do to treat your hearing loss!