Orbital Dermoid

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Background

Dermoid and epidermoid cysts are examples of choristomas, tumors that originate from aberrant ectodermal tissue. These tumors contain normal-appearing tissue in an abnormal location. As two suture lines of the skull close during embryonic development, dermal or epidermal elements may be pinched off and form cysts. These cysts occur adjacent to a suture line (this is shown in the image below). Approximately 50% of dermoids that involve the head are found in or adjacent to the orbit, either medial or lateral.



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Temporal-zygomatic suture line on the lateral orbital wall. The location of the periosteal attachment of most orbital dermoids.

Pathophysiology

Orbital dermoid cysts may displace structures in the orbit, causing proptosis, motility abnormalities, or optic nerve compression. Significant displacement may interfere with vision via compression of the optic nerve, causing optic neuropathy, or pressing on extraocular muscles, causing a motility defect, resulting in diplopia. Rupture of the dermoid, either spontaneously or with a trauma, may lead to an intense inflammatory reaction that could mimic orbital cellulitis.

Epidemiology

Frequency

United States

At an ocular oncology center, dermoid tumors were found to comprise 2% of the orbital tumors that came to surgery.[1] Shields et al reported that dermoid cysts comprised of 24% of 645 consecutive orbital biopsies among all age groups and 46% of 250 consecutive biopsies in patients younger than 18 years.[2, 3]

Mortality/Morbidity

Morbidity is usually of a cosmetic nature; occasionally, loss of vision, diplopia, or orbital inflammation may occur. Orbital dermoid cysts almost never cause mortality.

Race

Dermoid tumors show no racial predilection.

Sex

Dermoid tumors have an equal incidence in males and females.

Age

These tumors are most often noted in young children; however, they may appear or grow at any age.

Prognosis

The prognosis of dermoid tumor is excellent with surgical resection. Care must be taken to evaluate the extent of the dermoid (ie, if is it a dumbbell shape around the suture line) in order to avoid cyst rupture, which could lead to a robust inflammatory response.

Patient Education

Patients should understand that these tumors are benign.

Tell patients that surgery generally is successful, but that serious complications can be associated with any orbitotomy (eg, ptosis, diplopia, blindness, death).

History

Patients generally complain of a mass, which is visible in the orbital area. Growth of these lesions is generally slow. Occasionally, a history of inflammation will be present.

Patients with deep orbital dermoids may present with marked proptosis and downward displacement of the eye.

In adults, dermoids may become symptomatic for the first time and grow considerably over a year. Based on this fact, some conclude that these lesions may be dormant for many years or have intermittent growth.

Physical

Children

The most common location is in the superior temporal aspect of the orbit. The second most common location is in the superior nasal aspect of the orbit.

Lesions located superotemporally are generally smooth, firm subcutaneous masses attached to the orbital rim in the region of the zygomaticofrontal suture.

The mass is generally less than 1 cm in diameter, nontender, and oval in shape.

Little displacement of the globe usually occurs.

Orbital dermoid cysts are not attached to the skin, which helps differentiate them from sebaceous cysts. The cyst usually is tethered to the periosteum of the bone near suture lines, including the sinuses or intracranial cavity.[4]

Adults

The cysts are palpated less easily and have more vague borders. They are more likely to displace the globe and may erode their way into adjacent structures.

Inflammation

If the cyst ruptures, either spontaneously or with trauma, an inflammatory response may be seen. This response may be limited to injection of the conjunctiva or may be severe and mimic orbital cellulitis. Occasionally, subconjunctival droplets of fat are seen.[5]

Neurologic findings

Rarely, the cyst may press on the optic nerve and produce symptoms of optic nerve compression; reduced visual acuity, color vision and brightness perception, and a relative afferent pupillary defect.

More rarely, the cyst may induce diplopia by physically restricting movement of the globe or by compressing cranial nerves III, IV, or VI.

Causes

No known causes for orbital dermoid exist.

Other diagnostic considerations include the following:

Complications

The dermoid cyst may displace the globe, depending on the location of the cyst.

Orbital dermoid cysts may cause neurologic complications if they compress the optic nerve or cranial nerves III, IV, or VI.

If the cyst ruptures, a marked inflammatory response follows.

Operative complications are those common to other orbitotomy procedures. Damage to the eye or adnexal structures, motility restriction, infection, inflammation, and hemorrhage may occur. Partial excision of the dermoid cyst may result in persistent inflammation, a draining sinus, or recurrence.

Imaging Studies

Radiography

Radiographs often show radiolucent defects where the cyst has eroded into bone. These defects can be large with distinct margins and may show sclerotic changes.

CT or MRI studies

CT or MRI studies have largely supplanted plain radiography for evaluating dermoid cysts.

A review of 160 CT studies of orbital dermoids revealed that 65% were lateral and 30% were medial to the globe, only one was entirely behind the globe, 85% had changes in adjacent bone, 73% had a visible wall, 27% had a CT attenuation similar to orbital fat, 14% had calcification, 5% had a fluid level, and 20% had abnormal soft tissue outside the cyst.[6] The cyst lumen is generally homogeneous but can also be heterogeneous depending on the amount of lipid and keratin within it. The lumen does not enhance with contrast.[7]

On MRI, features include a cystic appearance, internal fat attenuation (T1 hyperintensity), internal calcification, and fluid levels.[8] The wall of the cyst but not the lumen may show enhancement with gadolinium. These features are uncommon in rhabdomyosarcoma. On MRI diffusion-weighted imaging, dermoids are high in signal intensity.

Ultrasonography

Ultrasound characteristics of dermoid cysts include a smooth contour and variable echogenicity.[9]

Color Doppler imaging

Color Doppler imaging of dermoid cysts shows no intralesional blood flow, which can help differentiate them from hemangioma and rhabdomyosarcoma.[9]

Histologic Findings

The external layer of the cyst has variable thickness and may be exceedingly thin. The cyst is generally connected to periorbita by fibrovascular tissue. Epidermoid cysts have a lining of epithelial cells, usually stratified, that produce keratin. Dermoid cysts contain blood vessels, fat, collagen, sebaceous glands, and hair follicles. The material in the cyst varies from a tan, oily liquid to a white or yellow substance that resembles cottage cheese or even a relatively solid mass. Often, high cholesterol content is present. The cysts commonly are inflamed and may contain free blood. See the image below.



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Orbital dermoid.

Medical Care

No medical care usually is required for an orbital dermoid.

Inflammation that results from a ruptured dermoid cyst may be controlled with oral prednisone.

Surgical Care

Dermoid cysts usually are cosmetic problems. The location of the dermoid cyst in the orbit helps determine the appropriate type of orbitotomy. A method for percutaneous drainage and ablation of orbital dermoid cysts[10] and endoscopic-assisted removal of orbital dermoid cysts has been reported.[11] In 2019, Bajric and Harris reviewed locations of the dermoid and how they altered surgical approaches. The cysts were stratified into anterior, superior, medial to the frontozygomatic suture, anterior and medial across the suture, and those forming a sinus from the orbit to the skin.[12]

Inflammation from preoperative or intraoperative rupture of the cyst can be controlled with the use of prednisone.

Failure to remove the entire cyst may result in persistent inflammation, a draining sinus, or recurrence of the cyst.

Complications

Dermoid cysts generally have a good prognosis. If they are excised completely, usually only minimal scarring occurs. If they are observed rather than excised, slow growth can be expected.

Further Outpatient Care

After surgical excision of an orbital dermoid, infrequent follow-up care is necessary.

Medication Summary

The goals of pharmacotherapy are to reduce morbidity and to prevent complications.

Prednisone (Deltasone, Orasone, Meticorten)

Clinical Context:  The most commonly used oral corticosteroid to control inflammation. May decrease inflammation by reversing increased capillary permeability and suppressing PMN activity.

Class Summary

Have anti-inflammatory properties and cause profound and varied metabolic effects. Corticosteroids modify the body's immune response to diverse stimuli.

Author

Anna G Gushchin, MD, Clinical Assistant Professor of Ophthalmology, Loyola University Medical Center; Attending Oculoplastic Surgeon, John H Stroger Hospital of Cook County

Disclosure: Nothing to disclose.

Coauthor(s)

Alexander K Nugent, MD, Resident Physician, Department of Ophthalmology, Stanford University School of Medicine, Byers Eye Institute

Disclosure: Nothing to disclose.

Talmadge (Ted) Cooper, MD, Clinical Associate Professor, Department of Ophthalmology, Stanford University School of Medicine

Disclosure: Nothing to disclose.

Tarek El-Sawy, MD, PhD, Clinical Assistant Professor, Ophthalmic Plastic and Reconstructive Surgery, Department of Ophthalmology, Byers Eye Institute, Stanford University School of Medicine

Disclosure: Nothing to disclose.

Specialty Editors

Simon K Law, MD, PharmD, Clinical Professor of Health Sciences, Department of Ophthalmology, Jules Stein Eye Institute, University of California, Los Angeles, David Geffen School of Medicine

Disclosure: Nothing to disclose.

Chief Editor

Hampton Roy, Sr, MD, Associate Clinical Professor, Department of Ophthalmology, University of Arkansas for Medical Sciences

Disclosure: Nothing to disclose.

References

  1. Shields JA, Shields CL, Scartozzi R. Survey of 1264 patients with orbital tumors and simulating lesions: The 2002 Montgomery Lecture, part 1. Ophthalmology. 2004 May. 111(5):997-1008. [View Abstract]
  2. Shields JA, Bakewell B, Augsburger JJ, Flanagan JC. Classification and incidence of space-occupying lesions of the orbit. A survey of 645 biopsies. Arch Ophthalmol. 1984 Nov. 102(11):1606-11. [View Abstract]
  3. Shields JA, Bakewell B, Augsburger JJ, Donoso LA, Bernardino V. Space-occupying orbital masses in children. A review of 250 consecutive biopsies. Ophthalmology. 1986. 93(3):379-84.
  4. Cavazza S, Laffi GL, Lodi L, Gasparrini E, Tassinari G. Orbital dermoid cyst of childhood: clinical pathologic findings, classification and management. Int Ophthalmol. 2011 Apr. 31(2):93-7. [View Abstract]
  5. Jung BY, Kim YD. Orbital dermoid cysts presenting as subconjunctival fat droplets. Ophthal Plast Reconstr Surg. 2008. 24(4):327-9. [View Abstract]
  6. Chawda SJ, Moseley IF. Computed tomography of orbital dermoids: a 20-year review. Clin Radiol. 1999 Dec. 54(12):821-5. [View Abstract]
  7. Shields JA, Kaden IH, Eagle RC Jr, Shields CL. Orbital dermoid cysts: clinicopathologic correlations, classification, and management. The 1997 Josephine E. Schueler Lecture. Ophthal Plast Reconstr Surg. 1997. 13(4):265-76. [View Abstract]
  8. Chung EM, Smirniotopoulos JG, Specht CS, Schroeder JW, Cube R. From the archives of the AFIP: Pediatric orbit tumors and tumorlike lesions: nonosseous lesions of the extraocular orbit. Radiographics. 2007 Nov-Dec. 27(6):1777-99. [View Abstract]
  9. Neudorfer M, Leibovitch I, Stolovitch C, Dray JP, Hermush V, Nagar H, et al. Intraorbital and periorbital tumors in children--value of ultrasound and color Doppler imaging in the differential diagnosis. Am J Ophthalmol. 2004 Jun. 137(6):1065-72. [View Abstract]
  10. Golden RP, Shields WE 2nd, Cahill KV, Rogers GL. Percutaneous drainage and ablation of orbital dermoid cysts. J AAPOS. 2007 Oct. 11(5):438-42. [View Abstract]
  11. Prabhakaran VC, Hsuan J, Selva D. Endoscopic-Assisted Removal of Orbital Roof Lesions via a Skin Crease Approach. Skull Base. 2007 Sep. 17(5):341-5. [View Abstract]
  12. Bajric J, Harris GJ. The spectrum of orbital dermoid cysts and their surgical management. Orbit. 2019 Jun 27. 1-10. [View Abstract]
  13. Golden BA, Jaskolka MS, Ruiz RL. Craniofacial and orbital dermoids in children. Oral Maxillofac Surg Clin North Am. 2012 Aug. 24(3):417-25. [View Abstract]
  14. McNab A. Manual of Orbital and Lacrimal Surgery. Butterworth-Heinemann Medical; 1998.
  15. Rootman J. Orbital Surgery: A Conceptual Approach. Raven Press; 1995.
  16. Schick U, Hassler W. Pediatric tumors of the orbit and optic pathway. Pediatr Neurosurg. 2003 Mar. 38(3):113-21. [View Abstract]
  17. Shields JA, Shields CL. Orbital cysts of childhood--classification, clinical features, and management. Surv Ophthalmol. 2004 May-Jun. 49(3):281-99. [View Abstract]
  18. Sreetharan V, Kangesu L, Sommerlad BC. Atypical congenital dermoids of the face: a 25-year experience. J Plast Reconstr Aesthet Surg. 2007. 60(9):1025-9. [View Abstract]

Temporal-zygomatic suture line on the lateral orbital wall. The location of the periosteal attachment of most orbital dermoids.

Orbital dermoid.

Temporal-zygomatic suture line on the lateral orbital wall. The location of the periosteal attachment of most orbital dermoids.

Orbital dermoid.