Microsurgery for sporadic VS The
Guidelines on the Treatment of Adults with Vestibular Schwannoma issued in 2018 by the Congress of Neurological Surgeons in the U.S. looked at the long-term evolution of treatments for VS. The Introduction to the Guidelines stated: "The evolution in treatment over the last century has ultimately led to an environment where functional outcome has taken precedence over disease eradication. With multiple noninvasive management options available, the tolerance of cranial neuropathy in patients with small and medium-sized tumors is low. Today, hearing preservation, facial nerve function, and tumor control remain the primary benchmarks used to evaluate treatment effectiveness and compare outcomes." In other words, tumor management was able to give greater attention to preserving quality of life. The three main surgical approaches to the tumor are the translabyrinthine (incision behind the ear to reach the
bony labyrinth), the retrosigmoid (incision behind the ear to reach
cerebellopontine angle) and the middle cranial fossa (incision in front of the ear to access the IAC from above). Tumor size is a major factor in determining approach selection. Adjunctive use of the
endoscope for enhanced visualization during surgery for IAC tumors has gained attention as an emerging technique with advancing technology. For large tumors, a 'facial nerve sparing surgery' offers partial removals, to be followed (as needed) by stereotactic radiosurgery or radiotherapy for 'residuals'. The rate of 'tumor control' appeared to be similar to that for gross total removal surgeries. For small to medium size tumors, the appropriateness of so-called 'hearing preservation surgery' via either the middle fossa or retrosigmoid approach remained controversial. Data from Denmark indicated that primary observation offered the best chance to preserve good hearing the longest. But preserving good hearing in the affected ear remained an elusive goal. Even during observation, although tumors showed no significant growth, hearing deterioration occurred. Stangerup et al. reported (2010) that most patients with 100% speech discrimination at diagnosis had the best chance of maintaining good hearing after ten years of observation. The overall mortality rate for VS surgery is around 0.2% - 0.5%. The most common complications include facial nerve disorder (25.0%), cerebrospinal fluid leakage (8.5%) and postoperative neurological complications (8.4%).
Radiosurgery and radiotherapy The 'Patient Survey' in the U.S. in 2014 by the national Acoustic Neuroma Association showed that 29% of VS patients reported radiosurgery (17%) or radiotherapy (12%) as their treatment of choice. Radiosurgery is the delivery to the VS of a concentrated high radiation dose in a one-day session, whereas radiotherapy involves multiple treatment sessions where the total
radiation dose is spread out in fractions over a few days or 3–4 weeks. The main objective in either case is 'tumor control' by damaging tumor cell DNA and stopping
blood vessel proliferation (angiogenesis) needed for tumor growth. Tumors may swell following radiation, but this increase in size is transient and does not signal a failed procedure. The average success rate for stereotactic radiosurgery is reported to be 95.5%. Radiation doses are calculated in terms of
Gray/Gy—the measure of energy deposited by
ionizing radiation per kilogram of matter. Since VSs are noninvasive and well-demarcated from surrounding tissues, radiosurgeons are able to target the tumor volume closely and minimize normal tissue damage. Multisession radiotherapy recommends the advantage of giving time between sessions for biological repair of any damage to normal tissues that may occur, and allows for radiation of the tumor at different times in the cell growth cycle. The
CyberKnife radiation system introduced in 1994 recommends a protocol of three sessions known as hypofractionation. Radiation dosages overall were reduced over the years as experience showed that excellent tumor control rates could be maintained even as dosages were lowered to benefit hearing preservation and facial nerve function. Generally, single-session Gamma Knife radiosurgery is limited in use to VSs less than 3 cm in diameter to avoid possible complications with facial nerves, brainstem and the cochlea apparatus. The risk of radiation-induced secondary tumors is very small, in the range of 0.01-0.02%. The risk for NF2 patients appears to be slightly higher.
Medical and gene therapies To date, there is no fully efficacious medical therapy for VS. The complexity of the
molecular biology research involved is truly challenging. Clinical trials are in progress for other drugs such as
everolimus,
lapatinib and
mifepristone. Common aspirin has been studied as a low-risk therapeutic option, but emerging evidence suggests that aspirin and other NSAID use may not prevent VS tumor growth.
Observation of small VS The 1991 NIH Consensus Statement observed: "There is evidence that some patients with unilateral vestibular schwannoma and a subgroup of patients with NF2 may have tumors that fail to progress rapidly, resulting in stable neurologic function for a long time. The use of MRI with contrast enhancement has resulted in the identification of patients with very small, relatively asymptomatic vestibular schwannomas for whom the natural history is unknown. Conservative management may be appropriate for these patients." At the time,
conservative management (i.e., observation, 'wait-and-watch'/'wait-and-scan') was reserved mainly for elderly or infirm patients. Data on tumor sizes at diagnosis and tumor growth behavior was sparse or contradictory and mainly short-term. The
Central Brain Tumor Registry of the United States, established in 1992, only began to keep records for benign tumors like VS in 2004. In 2006, a landmark study from Denmark, entitled "The Natural History of Vestibular Schwannoma," predicted that half of all cases of VS would be managed initially with observation by 2026. Stangerup et al. have urged caution (2019): "Most studies show that if tumor growth occurs, it is usually detected within the first few years of diagnosis. However, long-term observational studies are desperately needed to guide the development of evidence-based surveillance algorithms designed to detect late tumor progression." Also (see Medical and Gene Therapies, above): "Basic science and identification of genes, molecular pathways, and networks related to tumor growth are likely to change our approach to treatment including conservative management." ==Incidence of sporadic VS==