Optic neuritis | |
Field: | Ophthalmology, optometry, neurology |
Symptoms: | loss of vision, loss of colour vision, pain worsening on eye movements |
Complications: | multiple sclerosis, MOG-disease, NMO |
Onset: | subacute |
Duration: | 1-3 months |
Types: | MS-ON, MOG-ON, AQP4-ON, CRMP5-ON, SION, RION, CRION, post-infectious ON, post-vaccination ON, ON as complication of systemic diseases or meidication |
Causes: | autoimmune, infection, vaccination, medication |
Risks: | genetic |
Diagnosis: | Diagnostic criteria |
Prognosis: | Prognosis depends on the subtype of ON |
Frequency: | can be relapsing |
Optic neuritis describes any condition that causes inflammation of the optic nerve; it may be associated with demyelinating diseases, or infectious or inflammatory processes.
It is also known as optic papillitis (when the head of the optic nerve is involved), neuroretinitis (when there is a combined involvement of the optic disc and surrounding retina in the macular area) and retrobulbar neuritis (when the posterior part of the nerve is involved). Prelaminar optic neuritis describes involvement of the non-myelinated axons in the retina.[1]
The World Health Organization's ICD-11 classification includes optic neuritis.[2] However a 2022 review found that there is no consensus regarding the classification of optic neuritis, and precise diagnostic criteria are not available.[3]
Major symptoms are
Many patients with optic neuritis may lose some of their color vision in the affected eye (especially red), with colors appearing subtly washed out compared to the other eye. Patients may also experience difficulties judging movement in depth, which can be particular troublesome during driving or sport (Pulfrich effect). Likewise, transient worsening of vision with increase of body temperature (Uhthoff's phenomenon) and glare disability are a frequent complaint.
However not everyone who has optic neuritis has problems with their vision.[6]
Early symptoms that require investigation include symptoms from multiple sclerosis (twitching, lack of coordination, slurred speech, frequent episodes of partial vision loss or blurred vision), episodes of "disturbed/blackened" rather than blurry indicate moderate stage and require immediate medical attention to prevent further loss of vision. Other early symptoms are reduced night vision, photophobia and red eyes.
Several case studies in children have demonstrated the absence of pain in more than half of cases (approximately 60%) in their pediatric study population, with the most common symptom reported simply as "blurriness".[7] [8] Other remarkable differences between the presentation of adult optic neuritis as compared to pediatric cases include more often unilateral optic neuritis in adults, while children much predominantly present with bilateral involvement.
On medical examination the head of the optic nerve can easily be visualized by a slit lamp with a high positive lens or by using direct ophthalmoscopy; however, frequently there is no abnormal appearance of the nerve head in optic neuritis (in cases of retrobulbar optic neuritis), though it may be swollen in some patients (anterior papillitis or more extensive optic neuritis). In many cases, only one eye is affected, and patients may not be aware of the loss of color vision until they are asked to close or cover the healthy eye.
Imaging of the optic nerve with MRI shows increased signal on the affected side. There is contrast enhancement of the symptomatic optic nerve and sheaths acutely or intrinsic signal increase (looking brighter) within ≥ 3 months.[1] Advanced imaging using optical coherence tomography (OCT) is very sensitive reveal damage to the optic nerve. The OCT shows corresponding optic disc swelling acutely or an inter-eye difference in the thickness of the neurons and their nerves connecting the eye with the brain in above 4-5% within ≥ 3 months after onset.[1]
Asymmetry between the eyes in thickness of RNFL has been proposed as a strong indicator of optic neuritis.[9] [10] [11]
The optic nerve comprises axons that emerge from the retina of the eye and carry visual information to the primary visual nuclei, most of which is relayed to the occipital cortex of the brain to be processed into vision. Inflammation of the optic nerve causes loss of vision, usually because of the swelling and destruction of the myelin sheath covering the optic nerve.
A 2019 review divided optic neuritis into
The most common cause is multiple sclerosis (MS) or ischemic optic neuropathy due to thrombosis or embolism of the vessel that supplies the optic nerve.[13] [14] Up to 50% of patients with MS will develop an episode of optic neuritis, and 20–30% of the time optic neuritis is the presenting sign of MS. The presence of demyelinating white matter lesions on brain MRI at the time of presentation of optic neuritis is the strongest predictor for developing clinically definite MS. Almost half of the patients with optic neuritis have white matter lesions consistent with multiple sclerosis.
Some other common causes of optic neuritis include infection (e.g. a tooth abscess in the upper jaw, syphilis, Lyme disease, herpes zoster), autoimmune disorders (e.g. lupus, neurosarcoidosis, neuromyelitis optica), methanol poisoning, vitamin B12 deficiency, beriberi, dysautonomia (i.e. autonomic nervous system dysfunction), and diabetes, or an injury to the eye.[15] In neuromyelitis optica higher AQP4 autoantibody levels are associated with the occurrence of optic neuritis.[16]
Less common causes are: papilledema, brain tumor or abscess in the occipital region, cerebral trauma or hemorrhage, meningitis, arachnoidal adhesions, sinus thrombosis, liver dysfunction, or late stage kidney disease.
Multiple sclerosis (Rank 33) | 400,042 | 146,232 | 45% | Most common cause. Almost all patients will experience some form of vision dysfunction. Partial vision loss can occur through the duration of the disease; total vision loss occurs in severe cases and late stages. It may lead to complete or partial loss of vision in one or both eyes. Partial, transient vision loss (lasting less than one hour) can be an indication of early onset multiple sclerosis.[18] | |
Blood clot (Rank 29) (Optic ONLY) | 17,000 | 16,777 | 5% | Reversible if early and before reduced blood flow causes permanent damage. | |
Nerve pinch (0) | NOT REPORTED | - | 4% | Usually heals itself, treatment not needed. | |
Injury to optic nerve (including poisoning, i.e. methanol) (0) | 23,827 | 20,121 | <1% | Depends on severity, usually treatable. | |
Liver dysfunction (Rank 19); if untreated can lead to Failure (Rank 8) | 141,211 | 11,982 | 7% | Poor outcomes and progresses and can lead to total vision loss. | |
Reduced kidney function (treatable with diet change) (Rank 67 – If untreated, can progress to late stage with much greater mortality rates) | 509,898 | 16,281 | 9% | Good outcomes if early, and can usually be treated with diet changes, progresses and can lead to total vision loss. | |
Late stage kidney failure (Rank 7) | 33,212 | 1,112 | 2% | Poor outcomes – usually permanent nerve damage at this stage. | |
Papilledema (brain tumor or abscess) (Rank 10) | 45,888 | 9,231 | 3% | Depends on severity. | |
Meningitis (Rank 61) | 2,521 | 189 | <1% | Depends on severity. | |
Other infections (not from abscess) | 5,561 | - | <1% | Good outcomes, treatable with antibiotics or other microbial drugs. | |
Diabetes (early stage treatable, late Stage has worse prognosis) (Rank 6) | 49,562 | 21,112 | 15% | Type 1 carries poor prognosis, type 2 can be treated and vision returned. | |
Unknown | - | - | 2% |
Other diseases associated with optic neuritis include:[19]
The repetition of an idiopathic optic neuritis is considered a distinct clinical condition, and when it shows demyelination, it has been found to be associated to anti-MOG and AQP4-negative neuromyelitis optica.[20]
When an inflammatory recurrent optic neuritis is not demyelinating, it is called chronic relapsing inflammatory optic neuropathy (CRION).[21]
When it is anti-MOG related, it is demyelinating and it is considered inside the anti-MOG associated inflammatory demyelinating diseases.
Some reports point to the possibility to establish a difference via optical coherence tomography.[22]
Many patients see full recovery but some see some lasting effects.[5] [23] [24]
High dose steroids may be given intravenously or orally.[5]
In most MS-associated optic neuritis, visual function spontaneously improves over 2–3 months, and there is evidence that corticosteroid treatment does not affect the long term outcome. However, for optic neuritis that is not MS-associated (or atypical optic neuritis) the evidence is less clear and therefore the threshold for treatment with intravenous corticosteroids is lower.[1] Intravenous corticosteroids also reduce the risk of developing MS in the following two years in patients with MRI lesions; but this effect disappears by the third year of follow up.[25]
Paradoxically, oral administration of corticosteroids in this situation may lead to more recurrent attacks than in non-treated patients (though oral steroids are generally prescribed after the intravenous course, to wean the patient off the medication). This effect of corticosteroids seems to be limited to optic neuritis and has not been observed in other diseases treated with corticosteroids.[26]
A Cochrane systematic review studied the effect of corticosteroids for treating people with acute optic neuritis.[27] Specific corticosteroids studied included intravenous and oral methylprednisone, and oral prednisone. The authors conclude that current evidence does not show a benefit of either intravenous or oral corticosteroids for rate of recovery of vision (in terms of visual acuity, contrast sensitivity, or visual fields). There are a number of reasons why this might be the case.[25] [28]
Immunosuppressants may also be used in treatment.[5]
Pain relief may also be used.[5]
Optic neuritis typically affects young adults ranging 18–45 years of age, with a mean age of 30–35 years. There is a strong female predominance. The annual incidence is approximately 5/100,000, with a prevalence estimated to be 115/100,000 (0.12%).[29]
In Charles Dickens' Bleak House, the main character, Esther Summerville, has a transient episode of visual loss, the symptoms of which are also seen in people who have optic neuritis.[30] Legal historian William Searle Holdsworth suggested that the events in Bleak House took place in 1827.
In an episode of Dr. Quinn, Medicine Woman ("Season of Miracles", season five), Reverend Timothy Johnson is struck blind by optic neuritis on Christmas Day 1872. He remains blind for the duration of the series.