Orbital Tumors - Sphenoid Wing Meningioma


A meningioma is a benign brain tumor. It originates from {the} dura mater, {the} tissue enwrapping {the} brain and spinal cord. Meningiomas are much more common in females, and are more common after 50 years of age. Of all cranial meningiomas, about 20% of them are in {the} sphenoid wing. In some cases, deletions involving chromosome 22 are involved.

Diagnosis of Orbital Meningioma 

  • Sphenoid wing meningiomas are diagnosed by {the} combination of suggestive symptoms from {the} history and physical and neuroimaging by magnetic resonance imaging (MRI) or computer averaged tomography (CT). Tumors growing in {the} inner wing (clinoidal) most often cause direct damage to {the} optic nerve leading especially to a decrease in visual acuity, progressive loss of color vision, defects in {the} field of vision (especially cecocentral), and an afferent pupillary defect.
  • If {the} tumor continues to grow and push on {the} optic nerve, all vision will be lost in that eye as {the} nerve atrophies. Proptosis, or anterior displacement of {the} eye, and palpebral swelling might also occur when {the} tumor impinges on {the} cavernous sinus by blocking venous return and leading to congestion. Damage to cranial nerves in {the} cavernous sinus leads to diplopia. Cranial nerve VI is often {the} initially affected, leading to diplopia with lateral gaze. If cranial nerve V-1 is damaged, {the} patient will have pain and altered sensation over {the} front and top of {the} head. Horner’s syndrome might occur if nearby sympathetic fibers are involved.

Classification of Orbital Meningioma 

  • Tumors found in {the} external third of {the} sphenoid are of two types: en-plaque and globoid meningiomas. En plaque meningiomas characteristically lead to slowly increasing proptosis with {the} eye angled downward. Much of this is due to reactive orbital hyperostosis.
  • With invasion of {the} tumor into {the} orbit, diplopia is common. Patients with globoid meningiomas often present only with signs of increased intracranial pressure. This leads to various other symptoms including headache and a swollen optic disc.
  • The differential diagnosis for sphenoid wing meningioma includes other types of tumors such as optic nerve sheathe meningioma, cranial osteosarcoma, metastases, and also sarcoidosis. Following {the} physical exam, {the} diagnosis is confirmed with neuro-imaging. Either a head CT or MRI with contrast such as gadolinium is useful, as meningiomas often show homogenous enhancement. Angiography looking for signs like stretched arteries might be used to supplement evaluation of vascular involvement and to determine whether embolization would be helpful if surgery is being considered.

Treatment of Orbital Meningioma 

  • Meningiomas have been divided into three types based on their patterns of growth. Histological factors that increase {the} grade include a high number of mitotic figures, necrosis and local invasion.
  • Treatment of sphenoid wing meningiomas often depends on {the} location and size of {the} tumor. Gamma knife radiation and microscopic surgery are common options. Their encapsulated, slow growth makes meningomas good targets for radiosurgery. In one series, less than one-third of clinoidal meningiomas could be completely resected without unacceptable risk of damaging of blood vessels (especially {the} carotid artery) or cranial nerves, risks that are lower with radiosurgery.
  • If surgery is done and {the} entire tumor cannot be removed, then external beam radiation helps reduce recurrence of {the} growth. Fortunately, most all meningiomas grow very slowly and almost never metastasize to other parts of {the} body. In part because of its slow growth, if a tumor is asymptomatic and found only by imaging, {the} best course is often observation with serial clinical exams and imaging. Possible indications for intervention would be a rapid increase in growth or involvement of cranial nerves. Untreated, one small series showed survival rates ranging from 5 to over 20 years, though most suffered unilateral blindness as well as paresis of extraocular movements.



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