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Acoustic Neuroma?

What is Acoustic Neuroma

Small Internal auditory canal acoustic neuroma

An acoustic neuroma (also called a schwannoma or neurinoma) is a benign (non-cancerous) tissue growth that arises from the balance nerve. There are two balance (vestibular) nerves, one for each of the right and left ears. The balance nerve is a thin cord that starts at the base of the brain and travels through a small, bony canal (internal auditory canal) of the skull to the inner ear. Two other nerves, the hearing nerve and the facial nerve (7th cranial nerve), travel directly alongside the balance nerve through the internal auditory canal to the inner ear.

Acoustic neuromas commonly develop inside the internal auditory canal. These tumors usually grow slowly over a period of many years. When acoustic neuromas grow in size, the tumor compresses the hearing nerve. Therefore, asymmetric hearing loss can be the first symptom in over 90% of patients with acoustic neuroma. Tinnitus or ear noise is also a common symptom. Loss of balance, dizziness or facial weakness may develop as the tumor continues to grow.

Identifying the Tumor

With appropriate tests it is now possible to identify tumors as small as 1-3mm in size. The first step in identifying a possible tumor is a thorough history and physical examination by a physician. Hearing testing is performed to identify any loss of hearing or speech understanding. An auditory brainstem response test (abbreviated ABR, BAER, or BSER) is ordered if there are any asymmetries in hearing testing between the right and left ears.  An ABR provides information on the passage of an electrical impulse along the hearing nerve from the ear to the brain. Abnormal ABR results suggest a poorly functioning hearing nerve. This test is important to obtain before treatment in good hearing patients as it will be used during surgery to monitor hearing preservation.

The most accurate imaging technique for acoustic neuroma identification is a magnetic resonance imaging (MRI). A properly performed MRI can identify acoustic neuromas as small as 1-3mm. MRI uses magnetic pulses and radio frequency waves to produce an image of a portion of the body being studied.  Radiation is not used to perform an MRI. A contrast material, gadolinium, is given during the MRI to enhance the visibility of the tumor, and is very important to detect tumors smaller than 4-5mm.

Management of Acoustic Neuroma Tumors

Observation

Since acoustic neuromas are benign, often slow-growing tumors, careful observation over a period of time may be appropriate for some patients. When a small tumor is discovered in an older patient, observation to study the growth rate of the tumor may be indicated if acute symptoms are not present. A MRI scan of the tumor and surrounding region must be performed periodically to determine if there is any significant change in the size of the tumor. If the tumor does not grow, observation is continued. If the tumor increases in size, treatment may be recommended.

Treatment options

There are several surgical approaches that may be used to remove an acoustic tumor. The type of approach is individualized depending on the patient’s wishes, health, hearing level, other neurological symptoms, location and size of the tumor. The surgeons of the Ohio Ear Institute are well versed in all surgical approaches for acoustic neuroma management.

  • Middle Fossa Approach
    In the middle fossa approach, the bone is opened above the ear and the bone overlying the tumor is removed. The inner ear is not entered. Therefore, hearing preservation is possible. The middle fossa approach is most suitable for small tumors in patients with good hearing.  This exposure require retraction of the temporal lobe.
  • Retrosigmoid Approach
    In this approach, the skull is opened behind the mastoid bone, and the inner ear structures are able to be preserved. In this way the suitable tumor can be removed from the hearing and facial nerves, allowing the possibility of hearing preservation and may be used for both small and large tumors, but does require some retraction of brain structures.
  • Translabyrinthine Approach
    In the translabyrinthine approach, the mastoid bone behind the ear is removed and the inner ear structures are opened. This exposes the internal auditory canal directly. All hearing is lost with this approach. The translabyrinthine approach can be used for both small and large tumors, commonly for those cases where hearing loss is already severe or the tumor is so large that hearing conservation is not a realistic goal. Its main advantage is the optimal exposure of the facial nerve, to ensure no residual tumor is left behind, and minimizing the need to retract brain structures, if at all.

Hospital stay after any type of microsurgery ranges from 4-7 days. Approximately 4-6 weeks is suggested for recovery after discharge home.

  • Stereotactic Radiation Therapy
    Stereotactic radiation therapy, which is commonly known as “radiosurgery,” is a single or multi session radiation treatment. Using computer imaging, high dose of radiation is delivered precisely to the acoustic tumor while minimizing injury to surrounding nerves and brain tissue. Treatment is performed on an outpatient basis.  Stereotactic radiation prevents further tumor growth and sometimes shrinks a portion of the tumor. This type of treatment does not remove the tumor. Follow-up imaging studies are important because some tumors will continue to grow after stereotactic radiation. For more information regarding Stereotactic Radiation Therapy, please click here.

Each form of acoustic neuroma treatment, either surgery or radiation, has advantages and disadvantages. Many factors are used to determine the most appropriate type of treatment, and will be discussed in detail during your appointment with the physician.

Columbus Ear Doctor

Serving Central Ohio for 15 Years.

A medical and surgical practice that devotes itself entirely to the diagnosis and treatment of disorders of the ear, facial nerve and related structures (otology/neurotology and skull base surgery).

Ohio Ear Institute