- Acoustic neuroma
Name = Acoustic neuroma
ICD10 = ICD10|C|72|4|c|69
ICD9 = ICD9|225.1
ICDO = ICDO|9560|0
MedlinePlus = 000778
eMedicineSubj = ent
eMedicineTopic = 239
DiseasesDB = 100
MeshID = D009464
An acoustic neuroma, also called a vestibular
schwannoma, is a benignprimary intracranial tumorof the myelin-forming cells of the vestibulocochlear nerve(CN VIII). [ [http://www.brain-surgery.com/acoustic.html Acoustic Neuromas ] ] (" Neuroma" is derived from Greek, meaning "nerve tumor".) The term "acoustic" is a misnomer, as the tumor rarely arises from the acoustic (or cochlear) division of the vestibulocochlear nerve. The correct medical term is vestibular schwannoma, because it involves the vestibular portion of the 8th cranial nerve and it arises from Schwann cells, which are responsible for the myelin sheath in the peripheral nervous system. Approximately 3,000 cases are diagnosed each year in the United Stateswith a prevalence of about 1 in 100,000 worldwide. It compromises 5-10% of all intracranial neoplasms in adults. Incidence peaks in the fifth and sixth decades and both sexes are affected equally.
neuromas may occur sporadically, or in some cases occur as part of von Recklinhausen neurofibromatosis, in which case the neuroma may take on one of two forms.
*In "Neurofibromatosis type I", a schwannoma may sporadically involve the 8th nerve, usually in adult life, but may involve any other cranial nerve or the spinal root. Bilateral acoustic neuromas are rare in this type.
*In "Neurofibromatosis type II", bilateral acoustic neuromas are the hallmark and typically present before the age of 21. These tumors tend to involve the entire extent of the nerve and show a strong
autosomal dominantinheritance. Incidence is about 5 to 10%.
The usual tumor in the adult presents as a solitary tumor, originating in the nerve. It usually arises from the vestibular portion of the 8th nerve, just within the internal auditory canal. As the tumor grows, it usually extends into the posterior fossa to occupy the angle between the cerebellum and the pons (
cerebellopontine angle). Because of its position, it may also compress the 5th, 7th, and less often, the 9th and 10th cranial nerves. Later, it may compress the pons and lateral medulla, causing obstruction of the cerebrospinal fluidand increased intracranial pressure.
Schwannomas can occur in relation to other cranial nerves or
spinal nerve roots, resulting in radiculopathyor spinal cord compression. Trigeminal neuromas are the second most common form of schwannomas involving cranial nerves. Schwannomas of other cranial nervesare very rare.
The earliest symptoms of acoustic neuromas include ipsilateral
sensorineural hearing loss/ deafness, disturbed sense of balance and altered gait, vertigo with associated nausea and vomiting, and pressure in the ear, all of which can be attributed to the disruption of normal vestibulocochlear nerve function. Additionally more than 80% of patients have reported tinnitus(most often a unilateral high-pitched ringing, sometimes a machinery-like roaring or hissing sound, like a steam kettle).
Large tumors that compress the adjacent
brainstemmay affect other local cranial nerves. Involvement of the nearby facial nerve(CN VII) may lead to ipsilateral "facial weakness", sensory impairment, and impairment of glandular secretions; involvement of the trigeminal nerve(CN V) may lead to loss of taste and loss of sensation in the involved side's face and mouth. The glossopharyngeal and vagus nerves are uncommonly involved, but their involvement may lead to altered gag or swallowing reflexes.
Even larger tumors may lead to increased
intracranial pressure, with its associated symptoms such as headache, vomiting, and altered consciousness.
Contrast-enhanced CT will detect almost all acoustic neuromas that are greater than 2.0 cm in diameter and project further than 1.5 cm into the cerebellopontine angle. Those tumors that are smaller may be detected by
MRIwith gadoliniumenhancement. Audiology and vestibular tests should be concurrently evaluated using air conduction and bone conduction threshold testing to assess for sensorineural versus conduction hearing loss.
Indicated treatments for acoustic neuroma include surgical removal and
Because these neuromata grow so slowly, a physician may opt for conservative treatment beginning with an
observation period. In such a case, the tumor is monitored by annual MRIto monitor growth. This route is common among patients over 70 years old. [http://www.upmc.com/Services/MinimallyInvasiveendoNeurosurgeryCenter/ConditionsTreatments/acousticneuroma.htm Acoustic Neuroma – Diagnosis and Treatment - UPMC, Pittsburgh, PA, USA] ] Records suggest that about 45% of acoustic neuromata do not grow detectably over the 3-5 years of observation.fact|date=April 2008 In rare cases, acoustical neuromata have been known to shrink spontaneously.fact|date=April 2008 Often people with acoustic neuromata die of other causes before the neuroma becomes life-threatening. (This is especially true of elderly people possessing a small neuroma.)
Since the growth rate of an acoustic neuroma rarely accelerates, annual observation is sufficient. Acoustic neuromata may cause either gradual or—less commonly—sudden hearing loss and
Removal of acoustic neuromas may be performed using several approaches. Each approach has its advantages and disadvantages. Microsurgery for acoustic neuroma is the only technique that removes the tumor. Radiation treatment (discussed in another section) does not remove the tumor, but has the potential to slow or stop its growth. Surgery is the only treatment that will definitively treat balance symptoms associated with tumor growth, as the vestibular nerves are removed at surgery.
Choice of surgical approach is based on the patient's age, medical condition, size of tumor, and preoperative hearing thresholds and speech discrimination, as well as other tests such as electronystagmography, imaging, and auditory brainstem response testing. The patient's and surgeon's preferences also play a significant role.
During removal of the tumor, the tumor along with the superior and inferior vestibular nerves are removed. This results in an acute loss of vestibular input to the brain from the operated side. However, vestibular function improves rapidly due to compensation by the other ear and other balance mechanisms.
Surgery carries risk to the
facial nervewhich may therefore be monitored during the procedure. Best results (normal or near normal facial function) are more likely with small acoustic neuromas.
Three surgical approaches are commonly used. The first is the
translabyrinthine approach, which destroys hearing in the affected ear. Thus, it is often employed in patients who already have poor speech discrimination in the affected ear. Any size tumor may be removed with this approach. There is no brain retraction with this approach, so it is often considered the safest route to remove the tumor. In patients with neurofibromatosis type 2 who undergo auditory brainstem implantation, this technique is used as it provides the most direct path of access to the lateral recessand cochlear nucleus, where the device is placed.
The two other approaches (suboccipital retrosigmoid and
middle fossa) are hearing preservation approaches, which have a chance of preserving some or all of the hearing in the affected ear. Neurosurgeons often prefer the retrosigmoid approach, as they are frequently more familiar with it from training.
The middle fossa approach is used for tumors typically less than 2cm in greatest dimension, where hearing conservation is to be attempted. This approach has the advantage over the retrosigmoid approach in its direct access to the lateral end of the internal auditory canal. Multiple reports have shown that the retrosigmoid approach cannot reach the lateral end of the internal auditory canal without violating the posterior semicircular canal, and hence destroying the hearing.
A less common approach is minimally invasive endoscopic surgery. This approach is available in specialized centers. This technique is not widely used due to concerns over bleeding and the inability to remove tumors from the internal auditory canal with this method.
Acoustic neuroma surgery is highly technically demanding. It may be performed by neurosurgeons alone or together with an otolaryngologist.
Radiation therapyis done in a variety of ways, but mainly by two methods: gamma knife radiosurgeryor fractionated stereotacticradiotherapy. In the gamma knife approach, 201 beams of gamma radiationare focused on the tumor in a single session. The damage to the tumor at the convergence point may cause it to stop growing but usually does not cause it to shrink in the long term. It may cause short-term shrinkage due to necrosis in the tumor. The damage may be to the tumor cells and/or to the tumor vasculature.
It is not clear what percentage of tumors are controlled by this method for long periods. In earlier times when higher radiation doses were used, the failure rate was about 12% (which then required surgery). Most surgeons feel that these tumors are much more difficult to remove after radiation treatment. Radiation does not remove the tumor, and when irradiated tumors are surgically removed, it is often found that they have growing tumor cells in them.
Two risks of radiation treatment are
carcinogenicprogression of the acoustic neuroma (conversion from benignto malignant) or induction of other tumors (such as glioblastoma) in the nearby irradiated brain tissue. The incidence of these events appears to be low, and it is often said to be one in one thousand or less. (However, the incidence is markedly higher in patients with neurofibromatosis type 2.) This calculation is done by dividing the number of obvious cases of tumorigenic progression or secondary tumor reported in the medical literature by the estimated number of gamma knife procedures done in the world to date. This is not a scientifically valid method of estimating the carcinogenic risk of medical radiation exposures, and involves a list of very questionable assumptions.
The proper and scientifically valid way to estimate such risks can be found at the web site of the
Health Physics Society(http://www.hps.org/), where estimates of the risks of CT scans and other procedures can be found. These calculations have never been made for gamma knife radiosurgery.
Due to the possibility of regrowth and the possibility of tumorigenic progression or secondary tumors, it is essential that radiation treatments for acoustic neuromas be followed by yearly MRI for the rest of the patient's life. MRIs at this time (
2007) cost between $1,500-$3,000. Long-term secondary effects (for instance cognitiveeffects) on a scale of 10-20 years are not yet established for gamma knife surgery.
Fractionated stereotactic therapy involves a beam of
ionizingradiation focused on the tumor from a moving gantry. The beam is wider and less accurate than that of the gamma knife. The total dose is also much higher than that used in gamma knife radiosurgery, but the fractionation of the dose (done on many different days) spares normal tissue. This method has not been done on as many patients as gamma knife procedures and there have not been as many years of follow-up study. This means that the tumor control by this method is not yet established, and the incidence of secondary effects of the radiation are not yet known.
Cerebellopontine angle syndrome
* http://www.houseearclinic.com/acousticneuroma.htm - Detailed information on acoustic neuroma including case studies and patient questions answered
* [http://www.gamma-knife-surgery.com/gammaKnife/acoustic-neuroma.asp Gamma Knife Video]
* [http://www.nidcd.nih.gov/health/hearing/acoustic_neuroma.asp Vestibular Schwannoma (Acoustic Neuroma) and Neurofibromatosis] National Institute on Deafness and Other Communication Disorders
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