Chronic relapsing inflammatory optic neuropathy

Chronic relapsing inflammatory optic neuropathy
Classification and external resources
Specialty Ophthalmology

Chronic relapsing inflammatory optic neuropathy (CRION), sometimes called chronic relapsing inflammatory optic neuritis, is a form of recurrent optic neuritis that is steroid responsive.[1] Patients typically present with pain associated with visual loss.[1] CRION is a diagnosis of exclusion, and other demyelinating, autoimmune, and systemic causes should be ruled out.[2] Early recognition is crucial given risks for severe visual loss and because it is treatable with immunosuppressive treatment such as steroids.[2] Relapse that occurs after reducing or stopping steroids is a characteristic feature [2]

Pathogenesis

The etiology remains unknown.[1] Given that CRION is responsive to immunosuppressive treatment, it may be immune-mediated.[2] CRION has been classified as an autoimmune process but this description is not established with certainty and there is no known associated autoimmune antibody [2][3]

Some research points to CRION belonging to the antiMOG associated encephalomyelitis spectrum.[4]

Signs and Symptoms

Pain, visual loss, relapse, and steroid response are typical of CRION.[1][2] Ocular pain is typical, although there are some cases with no reported pain.[2] Bilateral severe visual loss (simultaneous or sequential) usually occurs, but there are reports of unilateral visual loss.[2] Patients can have an associated relative afferent pupillary defect.[5] CRION is associated with at least one relapse, and up to 18 relapses have been reported in an individual.[6] Interval between episodes can range from days to over a decade.[1] Symptoms will improve with corticosteroids, and recurrence characteristically occurs after reducing or stopping steroids.[2]

Epidemiology

CRION was first described in 2003.[1] The disease is rare, with only 122 cases published from 2003 to 2013.[2] There is female predominance with 59 females (48%), 25 males (20%), and no gender designation for the rest of the 122 reported cases (32%).[2] Age ranges from 14 to 69 years of age, and the mean age is 35.6.[2] The disease is noted to occur worldwide and across many ethnicities, with reported cases in all continents except Africa and Australia.[2]

Diagnosis

Diagnosis requires exclusion of other neurological, ophthalmological, and systemic conditions.[2] Any cause of optic neuropathy should be ruled out, including demyelinating (multiple sclerosis, and neuromyelitis optica) and systemic disease (diabetic, toxic, nutritional, and infectious causes).[2] Corticosteroid responsive optic neuritis not associated with demyelinating disease should also be ruled out, including sarcoidosis, systemic lupus erythematosus, or other systemic autoimmune disease.[7] Hereditary causes such as Leber’s hereditary optic neuropathy are also part of the differential diagnosis.[8]

There are no current diagnostic biomarkers or imaging features typical of CRION.[2] ANA, B12, folate, thyroid function tests, anti-aquaporin 4 antibodies (NMO-IgG), and GFAP can facilitate ruling out of other diseases.[2] Most patients are seronegative for NMO-IgG and GFAP, biomarkers for neuromyelitis optica.[2] ANA, indicative of autoimmune optic neuropathy, is also generally negative.[2] CSF can also be evaluated for oligoclonal bands typical of multiple sclerosis, which will not be present in CRION.[1] Chest X-ray or CT should be ordered if granulomatous optic neuropathy caused by sarcoidosis is suspected.[2]

MRI imaging can capture optic nerve inflammation, but this finding is not present in all patients,[1][2][9] Diffusion tensor imaging has been shown to detect widespread white matter abnormalities in CRION patients with normal MRI findings [10]

Five diagnostic criteria have been proposed:[2]

Treatment and Prognosis

Treatment consists of three phases:

Visual acuity is dramatically worse with CRION than other forms of optic neuritis.[2] Treatment with corticosteroids induces prompt relief of pain and improved vision.[1] At times, patients obtain complete restoration of vision, although exact success rates are unknown.[1] Recurrence is essentially inevitable in patients without treatment and patients ultimately will require lifelong immunosuppression to prevent relapse.[2][11]

See also

References

  1. 1 2 3 4 5 6 7 8 9 10 Kidd D, Burton B, Plant GT, Graham EM. Chronic relapsing inflammatory optic neuropathy (CRION). Brain : a journal of neurology. Feb 2003;126(Pt 2):276-284
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 Petzold A, Plant GT. Chronic relapsing inflammatory optic neuropathy: a systematic review of 122 cases reported. Journal of neurology. Jan 2014;261(1):17-26.
  3. Petzold A, Plant GT. Diagnosis and classification of autoimmune optic neuropathy. Autoimmunity reviews. Apr-May 2014;13(4-5):539-545
  4. Konstantina Chalmoukou el al. Anti-MOG antibodies are frequently associated with steroid-sensitive recurrent optic neuritis, Neurol Neuroimmunol Neuroinflamm. 2015 Aug; 2(4): e131. 2015 Jul 2. doi: 10.1212/NXI.0000000000000131, PMCID: PMC4496630
  5. Kaut O, Klockgether T. 51-year-old female with steroid-responsive optic neuropathy: a new case of chronic relapsing inflammatory optic neuropathy (CRION). Journal of neurology. Sep 2008;255(9):1419-1420
  6. Saini M, Khurana D. Chronic relapsing inflammatory optic neuropathy. Annals of Indian Academy of Neurology. Jan 2010;13(1):61-63
  7. Myers TD, Smith JR, Wertheim MS, Egan RA, Shults WT, Rosenbaum JT. Use of corticosteroid sparing systemic immunosuppression for treatment of corticosteroid dependent optic neuritis not associated with demyelinating disease. The British journal of ophthalmology. May 2004;88(5):673-680
  8. Lee MD, Song BJ, Odel JG, Sadun AA. Bilateral vision loss responsive to corticosteroids. Survey of ophthalmology. Nov-Dec 2013;58(6):634-639
  9. Sharma A, Khurana D, Kesav P. MRI findings in chronic relapsing inflammatory optic neuropathy. BMJ case reports. 2013;2013
  10. Colpak AI, Kurne AT, Oguz KK, Has AC, Dolgun A, Kansu T. White matter involvement beyond the optic nerves in CRION as assessed by diffusion tensor imaging. The International journal of neuroscience. Jan 2015;125(1):10-17
  11. Malik A, Ahmed M, Golnik K. Treatment options for atypical optic neuritis. Indian journal of ophthalmology. Oct 2014;62(10):982-984
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