Medicine:Idiopathic orbital inflammatory disease

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Idiopathic orbital inflammatory disease
Other namesOrbital pseudotumor
Inflammatory pseudotumor - Plasma cell granuloma Case 176 (5601449638).jpg
In this area there is a predominance of large histiocytes admixed with plasma cells.

Idiopathic orbital inflammatory (IOI) disease refers to a marginated mass-like enhancing soft tissue involving any area of the orbit. It is the most common painful orbital mass in the adult population, and is associated with proptosis, cranial nerve palsy (Tolosa–Hunt syndrome), uveitis, and retinal detachment. Idiopathic orbital inflammatory syndrome, also known as orbital pseudotumor, was first described by Gleason[1] in 1903 and by Busse and Hochheim.[2] It was then characterized as a distinct entity in 1905 by Birch-Hirschfeld.[3][4] It is a benign, nongranulomatous orbital inflammatory process characterized by extraocular orbital and adnexal inflammation with no known local or systemic cause.[5] Its diagnosis is of exclusion once neoplasm, primary infection and systemic disorders have been ruled out. Once diagnosed, it is characterized by its chronicity, anatomic location or histologic subtype.[6]

Idiopathic orbital inflammation has a varied clinical presentation depending on the involved tissue. It can range from a diffuse inflammatory process to a more localized inflammation of muscle, lacrimal gland or orbital fat.[7] Its former name, orbital pseudotumor, is derived due to resemblance to a neoplasm. However, histologically it is characterized by inflammation. Although a benign condition, it may present with an aggressive clinical course with severe vision loss and oculomotor dysfunction.[8]

Signs and symptoms

Affected individuals typically present with sudden painful proptosis, redness, and edema. Proptosis will vary according to the degree of inflammation, fibrosis, and mass effect. Occasionally, ptosis, chemosis, motility dysfunction (ophthalmoplegia), and optic neuropathy are seen.[8][9] In the setting of extensive sclerosis there may be restriction, compression, and destruction of orbital tissue. Symptoms usually develop acutely (hours to days), but have also been seen to develop over several weeks or even months. Malaise, headaches, and nausea may accompany these symptoms. Other unusual presentations described include cystoid macular edema, temporal arteritis, and cluster headaches.[8]

Pediatric IOI accounts for about 17% of cases idiopathic orbital inflammation.[8][10] The most common sign is proptosis, but redness and pain are also experienced. Presentation varies slightly compared to adults with bilateral involvement, uveitis, disc edema and tissue eosinophilia being more common in this population. The presence of uveitis generally implies a poor outcome for pediatric IOI. Bilateral presentation may have a higher incidence of systemic disease.[10]

Pathogenesis

The exact cause of IOI is unknown, but infectious and immune-mediated mechanisms have been proposed. Several studies have described cases where onset of orbital pseudotumor was seen simultaneously or several weeks after upper respiratory infections.[8] Another study by Wirostko et al. proposes that organisms resembling Mollicutes cause orbital inflammation by destroying the cytoplasmic organelles of parasitized cells.[11]

Orbital pseudotumor has also been observed in association with Crohn's disease, systemic lupus erythematosus, rheumatoid arthritis, diabetes mellitus, myasthenia gravis, and ankylosing spondylitis all of which strengthen the basis of IOI being an immune-mediated disease. Response to corticosteroid treatment and immunosuppressive agents also support this idea.[8]

Trauma has also been seen to precede some cases of orbital pseudotumor. However, one study by Mottow-Lippe, Jakobiec, and Smith [12] suggests that the release of circulating antigens caused by local vascular permeability triggers an inflammatory cascade in the affected tissues.

Although these mechanisms have been postulated as possible causes of IOI, their exact nature and relationships to the condition still remain unclear.[8]

Histopathology

The histopathology of idiopathic orbital inflammation is described as nondiagnostic and diverse.[8] It includes diverse polymorphous infiltrate, atypical granulomatous inflammation, tissue eosinophilia, and infiltrative sclerosis[7][8][13][14][15][16] Although several classification schemes have been postulated, none have been definitively accepted due to the absence of distinct differences among the histopathological types as to the signs, symptoms, clinical course, and outcome.[8]

Diagnosis

A differential diagnosis includes lymphoproliferative lesions, thyroid ophthalmopathy, IgG4-related ophthalmic disease, sarcoidosis, granulomatosis with polyangiitis, orbital cellulitis and carotid-cavernous fistula.[9]

Imaging

The best imaging modality for idiopathic orbital inflammatory disease is contrast-enhanced thin section magnetic resonance with fat suppression. The best diagnostic clue is a poorly marginated, mass-like enhancing soft tissue involving any area of the orbit. Overall, radiographic features for idiopathic orbital inflammatory syndrome vary widely. They include inflammation of the extraocular muscles (myositis) with tendinous involvement, orbital fat stranding, lacrimal gland inflammation and enlargement (dacryoadenitis), involvement of the optic sheath complex, uvea, and sclera, a focal intraorbital mass or even diffuse orbital involvement.[5] Bone destruction and intracranial extension is rare, but has been reported.[9] Depending on the area of involvement, IOI may be categorized as:

  • Myositic
  • Lacrimal
  • Anterior – Involvement of the globe, retrobulbar orbit
  • Diffuse – Multifocal intraconal involvement with or without an extraconal component
  • Apical – Involving the orbital apex and with intracranial involvement

Tolosa–Hunt syndrome is a variant of orbital pseudotumor in which there is extension into the cavernous sinus through the superior orbital fissure. Another disease variant is Sclerosing pseudotumor, which more often presents bilaterally and may extend into the sinuses.[citation needed]

CT findings

In non-enhanced CT one may observe a lacrimal, extra-ocular muscle, or other orbital mass. It may be focal or infiltrative and will have poorly circumscribed soft tissue. In contrast-enhanced CT there is moderate diffuse irregularity and enhancement of the involved structures. A dynamic CT will show an attenuation increase in the late phase, contrary to lymphoma where there is an attenuation decrease. Bone CT will rarely show bone remodeling or erosion, as mentioned above.[citation needed]

MR findings

On MR examination there is hypointensity in T1 weighted imaging (WI), particularly in sclerosing disease. T1WI with contrast will show moderate to marked diffuse irregularity and enhancement of involved structures. T2 weighted imaging with fat suppression will show iso- or slight hyperintensity compared to muscle. There is also decreased signal intensity compared to most orbital lesions due to cellular infiltrate and fibrosis. In chronic disease or sclerosing variant, T2WI with FS will show hypointensity (due to fibrosis). Findings on STIR (Short T1 Inversion Recovery) are similar to those on T2WI FS. In Tolosa–Hunt syndrome, findings include enhancement and fullness of the anterior cavernous sinus and superior orbital fissure in T1WI with contrast, while MRA may show narrowing of cavernous sinus internal carotid artery (ICA).[citation needed]

Ultrasonographic findings

On grayscale ultrasound there is reduced reflectivity, regular internal echoes, and weak attenuation, in a way, similar to lymphoproliferative lesions.

Treatment

Corticosteroids remain the main treatment modality for IOI.[6] There is usually a dramatic response to this treatment and is often viewed as pathognomonic for this disease. Although response is usually quick, many agree that corticosteroids should be continued on a tapering basis to avoid breakthrough inflammation. Although many respond to corticosteroid treatment alone, there are several cases in which adjuvant therapy is needed. While many alternatives are available, there is no particular well-established protocol to guide adjuvant therapy. Among the available options there is: surgery, alternative corticosteroid delivery, radiation therapy, non-steroidal anti-inflammatory drugs, cytotoxic agents (chlorambucil, cyclophosphamide), corticosteroid sparing immunosuppressants (methotrexate, cyclosporine, azathioprine), IV immune-globin, plasmapheresis, and biologic treatments (such as TNF-α inhibitors).[6]

Epidemiology

IOI or orbital pseudotumor is the second most common cause of exophthalmos following Grave's orbitopathy[5] and the third most common orbital disorder following thyroid orbitopathy and lymphoproliferative disease[8] accounting for 5–17.6% of orbital disorders,[6][17][18][19][20][21] There is no age, sex, or race predilection, but it is most frequently seen in middle-aged individuals. Pediatric cases account for about 17% of all cases of IOI.[8][10]

See also

References

  1. Gleason JE. Idipathic myositis involving the extraocular muscles. Ophthalmol Rec.12:471–478, 1903
  2. Busse O, Hochheim W. cited by Dunnington JH, Berke RN. Exophthalmos due to chronic orbital myositic. Arch Ophthal . 30:446–466, 1943
  3. Birch-Hirschfeld A. Zur diagnostic and pathologic der orbital tumoren. Ber Dtsch Ophthalmol Ges. 32: 127–135, 1905
  4. Birch-Hirschfeld A. Handbuch der gesamten augenheilkunde, vol. 9. Berlin: Julius Springer. p. 251–253, 1930
  5. 5.0 5.1 5.2 LeBedis CA, Sakai O: Nontraumatic Orbital Conditions: Diagnosis with CT and MR Imaging in the Emergent Setting. RadioGraphics. 28(6):1741–1753, 2008
  6. 6.0 6.1 6.2 6.3 Rubin PAD, Foster CS: Etiology and Management of Idiopathic Orbital Inflammation. Am J Ophthalmol. 138(6):1041–1043, 2004
  7. 7.0 7.1 Mombaerts I, Goldschmeding R, Schlingemann R, et al. Clinical pathological review. Survey of Ophthal. 41(1):66–78, 1996
  8. 8.00 8.01 8.02 8.03 8.04 8.05 8.06 8.07 8.08 8.09 8.10 8.11 Yuen SJ et al: Idiopathic orbital inflammation: distribution, clinical features, and treatment outcome. Arch Ophthalmol. 121(4):491–9, 2003
  9. 9.0 9.1 9.2 Narla LD et al: Inflammatory Pseudotumor. RadioGraphics. 23(3):719–729, 2003
  10. 10.0 10.1 10.2 Belanger C et al: Inflammatory Disorder of the Orbit in Childhood: A Case Series. A J Ophthalmol. 150(4):460–463, 2010
  11. Wirostko E, Johnson L, Wirostko B. Chronic orbital inflammatory disease: parasitisation of orbital leucocytes by mollicute-like organisms. Br J Ophthalmol. 73:865–70, 1989
  12. Mottow-Lippa L, Jakobiec FA, Smith M. Idiopathic inflammatory orbital pseudotumor in childhood II. Results of diagnostic tests and biopsies. Ophthalmology. 88(6):565–74, 1981
  13. Fujii H, Fujisada H, Kondo T, et al. Orbital pseudotumor: histopathological classification and treatment. Ophthalmologica .190:230–42, 1985
  14. Min YG, Lee CH, Shin JS, Byun SW. Idiopathic orbital pseudotumours in adults. Rhinology. 34: 60–3,1994
  15. Mombaerts I, Schlingemann RO, Goldschmeding R, Koornneff L. Idiopathic granulomatous orbital inflammation. Ophthalmology. 103(12):2135–41,1996
  16. Satorre J, Antle CM, O’Sullivan R, et al. Orbital lesions with granulomatous inflammation. Can J Ophthalmol 1991; 26:174–95
  17. Yuen SJ et al: Idiopathic orbital inflammation: ocular mechanisms and clinicopathology. Ophthalmol Clin North Am. 15(1):121–6, 2002
  18. Ho VH, Chevez-Barrios P, Jorgensen JL, Silkis RZ, Esmaeli B. Receptor expression in orbital inflammatory syndromes and implications for targeted therapy. Tissue antigens. 70(2):105–109, 2007
  19. Cruz AAV. Orbital inflammation and infection versus neoplasia. In: Karcioglu ZA, ed. Orbital Tumors: Diagnosis and Treatment. New York: Springer,:317–328, 2005
  20. Weber AL, Romo LV, Sabates NR. Pseudotumor of the orbit. Clinical, pathologic, and radiologic evaluation. Radiol Clin North Am. 37(1):151–168, 1999
  21. Weinstein GS, Dresner SC, Slamovits TL, et al. Acute and subacute orbital myositis. Am J Ophthalmol. 96:209–217, 1983