The etiology of NMOSD is still unclear. In the past, NMOSD was considered a variant of MS, but recent studies have elucidated the differences in the disease process, manifestations, and management. Whole-genome sequencing has identified some at-risk genotypes for NMOSD, and major histocompatibility complexes (including HLA-DRB1*03:01) have been identified.[4] The genetic variant of major histocompatibility complexes of NMOSD is more similar to systemic lupus erythematosus (SLE) than MS.[4]

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Complications of NMOSD include visual field defects and motor impairment, with potential blindness and irreversible motor deficits.[41] In severe cases, myogenic respiratory failure is the cause of increased mortality.[23]

Neuromyelitis optica spectrum disorder (NMOSD), previously called neuromyelitis optica or Devic disease, was first described by Dr. Eugene Devic in 1894 while evaluating a patient with optic neuritis with accompanying neuromuscular manifestations (see Image 1. Neuromyelitis Optica). That same year, Fernand Gault, Dr. Devic’s student, published his doctoral thesis presenting a literature review of previous medical cases, including the clinicopathological findings of Dr. Devic’s case.[1] Multiple sclerosis (MS) was the most prevalent identifiable autoimmune disease causing optic neuritis for many years. Recent discoveries have highlighted rarer, more sinister autoimmune diseases manifesting with optic neuritis, such as neuromyelitis optica spectrum disorder (NMOSD) and myelin oligodendrocyte glycoprotein antibody disease (MOGAD).[2]

MOGAD is a rare disease associated with antibodies against myelin oligodendrocyte glycoprotein (MOG). MOGAD is usually monophasic (but recurrent optic neuritis may be noted) with a better prognosis than NMOSD. MOGAD has a lower female-to-male ratio or male predominance and is noted more often in childhood. Clinical presentations may include features similar to acute disseminated encephalomyelitis (ADEM), optic neuritis, myelitis, and brainstem encephalitis. MRI features include bilateral anterior involvement of the optic nerve with long length, and the optic chiasma is less involved. The optic nerve head is usually swollen. In the spinal cord, a long segment of the conus or thoracolumbar spinal cord is usually affected. Contrast enhancement is infrequent. In the brain, MRI features include deep gray matter lesions, large lesions similar to ADEM, and fluffy lesions in cerebellar peduncles, pons, and around the fourth ventricle. Lesions of the peri-ependymal areas are rare. Up to 50% of patients with NMOSD or MOGAD can have a normal brain MRI at presentation.[39]

MRI with and without gadolinium can assist in the evaluation of NMOSD. Characteristic findings in optic neuritis include white matter lesions and optic nerve enhancement (T2-hyperintense lesions or T1-weighted contrast-enhancing images).[3] Other MRI manifestations of NMOSD include acute myelitis, showing longitudinal intramedullary lesions or focal spinal cord atrophic segments.[3] The involvement of bilateral optic nerves, especially of the posterior optic nerve reaching as far as the optic chiasma, is very suggestive of NMOSD. In chronic stages, there is atrophy of the optic nerve and hyperintense signal on T2. The brain lesions in NMOSD may be preferentially located at the location of aquaporin-4 at peri-ependymal regions abutting the ventricles, including confluent periventricular sessile lesions and lesions at the medulla, dorsal pons, medial thalamus, hypothalamus, periaqueductal gray matter, and corpus callosum. The splenium of the corpus callosum may be diffusely involved and swollen. Corpus callosal lesions may have a marbled pattern due to heterogeneous signals from overlapping lesions.[26] Patients with area postrema syndrome demonstrate lesions at the dorsal medulla region or area postrema. Those with acute brainstem syndrome show lesions at the peri-ependymal brainstem. Other brain imaging features include deep white matter lesions (punctate), large white matter lesions without mass effect (especially in pediatric and Black patients), and corticospinal tract lesions (especially in Korean patients).[17][27][28]

The electric field of light follows an elliptical propagation. The amplitude and phase difference between the two linear components are not equal.

Optics

The prevalence of NMOSD is approximately 0.3 to 4.4 per 100,000 people.[5] NMOSD characteristically occurs in females (80%) and younger patients between 30 and 40 years of age.[6] Pediatric cases of NMOSD are rare but have been reported occasionally, comprising less than 5% of cases.[7] NMOSD occurs worldwide, and most information on the disorder is limited to economically advantaged countries, likely due to the relative ease of access to magnetic resonance imaging (MRI) and targeted antibody testing compared to emerging countries.[8] Worldwide, NMOSD has a variable prevalence among demyelinating diseases, comprising only 1% to 2% in the United States and Italy but 13.7% in India and over 30% in Thailand.[8]

Neuromyelitis optica spectrum disorder (NMOSD) is an uncommon yet impactful inflammatory and demyelinating disorder of the central nervous system. NMOSD primarily targets the optic nerves, brainstem, and spinal cord, presenting a unique set of challenges for diagnosis and management. This disorder, comprising six syndromes, is intricately linked to aquaporin-4 immunoglobulin G antibodies (AQP4-IgG), necessitating serologic testing for accurate evaluations. This course will delve into the diverse clinical manifestations of NMOSD, emphasizing the importance of distinguishing between AQP4-IgG seropositive and seronegative patients. Core clinical features, such as optic neuritis, transverse myelitis, brainstem syndrome, and area postrema syndrome, are thoroughly explored to enhance diagnostic precision.

Usually longitudinally extensive transverse myelitis (LETM) Patchy, cloud-like enhancement on T1 images with contrast may be present

Chronic immunosuppressive therapy can be accomplished with azathioprine or rituximab as first-line agents.[17] Second-line agents may include mycophenolate or methotrexate.[11] These second-line agents may be advantageous due to their infrequent dosing. Newer biologics are directed against specific immune mediators such as anti-IL-6, anti-complement, or anti-AQP4-IgG.[11] A retrospective multicenter analysis showed reductions in relapse rate with rituximab, mycophenolate, and azathioprine (with prednisone) of 88.2%, 87.4%, and 72.1%, respectively.[37] Differentiating MS from NMOSD is necessary as some drugs used for MS (including natalizumab and beta-interferon) may exacerbate NMOSD.[31][38]

In recent years, the definition of neuromyelitis optica has been expanded as a specific antibody was discovered in the serum of affected patients, and various manifestations have been recognized in a spectrum of diseases. Because of this, the term neuromyelitis optica spectrum disorder is now used to include optic neuritis with spinal cord manifestations and other neurologic disorders associated with the serum aquaporin-4 immunoglobulin G antibodies (AQP4-IgG).[3]

NMOSD is an inflammatory disease that primarily affects the optic nerve and spinal cord; the brainstem, specifically the area postrema, can also be involved.[14] IgG antibodies against aquaporin-4 are noted in more than 60% to 90% (specificity 90%, sensitivity 70%-90%) of patients with NMOSD.[3][15][16][17][18] Aquaporin-4 is a transmembrane water channel found on the foot processes of astrocytes, and is highly concentrated in certain parts of the central nervous system, such as the optic nerve, the spinal cord, and the area postrema.[19] Circumventricular areas, including periaqueductal grey matter, are rich in AQP4 and are more involved in NMOSD.[18] NMOSD is an autoimmune demyelinating astrocytopathy where the AQP4-IgG mediates perivascular lymphocytic infiltration, leading to axonal loss with a preference for the aforementioned at-risk areas.[20]

There are two linear components in the electric field of light that are perpendicular to each other such that their amplitudes are equal, but the phase difference is π/2. The propagation of the occurring electric field will be in a circular motion.

Damage to the axons usually precedes demyelination in NMOSD.[17] Histopathological features include activation of microglia or macrophage cells, axonal damage, perivascular deposition of immunoglobulins (especially immunoglobulin M), eosinophilic infiltration, and local activation of the complement system.[21]

Optic neuritis presents with acute onset, painful, monocular vision loss, with a relative afferent pupillary defect in the affected eye.[22] The clinical exam of a patient with acute optic neuritis should always include the visual acuity, pupils, intraocular pressure, and a thorough neuro-ophthalmic exam. A fundus exam will typically reveal optic nerve head elevation on the affected side. Recent literature highlights the less common but more sinister causes of optic neuritis, such as NMOSD or MOGAD; therefore, patients with acute optic neuritis should be specifically asked additional questions during the review of systems. If the patient suffers from intractable hiccups, unexplained nausea or vomiting, or symptomatic narcolepsy, NMOSD may be causing the optic neuritis.[3][23]

Light is the interaction of electric and magnetic fields travelling through space. The electric and magnetic vibrations of a light wave occur perpendicularly to each other. The electric field moves in one direction and the magnetic field in another ‘perpendicular to each other. So, we have one plane occupied by an electric field, another plane of the magnetic field perpendicular to it, and the direction of travel is perpendicular to both. These electric and magnetic vibrations can occur in numerous planes. A light wave that is vibrating in more than one plane is known as unpolarized light. The light emitted by the sun, by a lamp or a tube light are all unpolarised light sources. As you can see in the image below, the direction of propagation is constant, but the planes on which the amplitude occurs are changing.

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Patients diagnosed with NMOSD should be educated on potential complications of the disorder, the comorbid-associated autoimmune conditions, and the importance of medication compliance and follow-up.[12] Currently, there are no known preventive strategies for NMOSD.

The focus extends to the treatment paradigm, which often involves chronic immunosuppressive therapy to prevent long-term optic nerve damage and relapse. The course provides a comprehensive understanding of the evaluation and management of NMOSD, equipping healthcare professionals with the knowledge and skills necessary to optimize patient care. Throughout the activity, the significance of the interprofessional team in evaluating and treating patients with NMOSD is underscored. Collaborative efforts among healthcare professionals ensure a holistic approach to managing this complex disorder.

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NMOSD has a variable course and prognosis.[23] This condition is either relapsing (80% to 90%) or monophasic.[12] Some patients suffer from a chronic disability as a result of relapsing episodes. Study results have demonstrated that up to 22% of patients fully recover, while 7% do not show any recovery.[23] Individuals with relapsing NMOSD have a worse prognosis. Paraplegia or monoplegia is noted in around 52% of patients with relapsing disease compared to 31% of patients with monophasic disease occurrence.[13] Around 60% of patients with the relapsing disease are blind in 1 or both eyes compared to 22% of patients with the monophasic disease.[13]

Ethnicity appears to play a role in the phenotype of the disease. Findings from a study in Cuba showed that African-heritage patients with NMOSD were older, had more lesions on MRI, and had more relapses than comparable patients of other ethnicities.[9] The variations in the epidemiology of this disease should give the clinician additional information to consider the diagnosis of NMOSD, especially if a patient presents with a suspected demyelinating disease and is of Asian or Indian heritage or is older and of African descent.[10] NMOSD can correlate with autoimmune diseases such as systemic lupus erythematosus (SLE), celiac disease, Sjögren syndrome, and sarcoidosis.[11] NMOSD attacks have been shown to occur in 20% to 30% of cases after an environmental trigger, such as post-vaccination or infection.[12][13]

The differential diagnosis of a patient with optic neuritis typically includes MS, NMOSD, and MOGAD. MS is the most common of these entities and should be ruled out first. The clinician should be especially aware of the other 2 conditions, as they typically portend a less favorable prognosis and require different treatment.

When MRI lesions show enhancement in the optic nerves and spinal cord, the main differential diagnosis of NMOSD is MS. It is important to distinguish these clinical entities as the prognosis and management differ considerably, and some MS drugs can worsen NMOSD.[29][30][31] In contrast with MS, NMOSD has some distinct radiologic features that differentiate the condition as a clinical entity. NMOSD shows longitudinal spinal cord lesions extending over 3 or more segments, while MS typically has short, multiple lesions.[27] However, around 14.5% of patients may have short transverse myelitis.[32] Bright spotty lesions in the central gray matter of the spinal cord that are very hyperintense on T2 (more than cerebrospinal fluid) and hypointense on T1 are specific for NMOSD. Acute lesions are usually enhanced with gadolinium contrast in MRI.[32][33]

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Due to the relative scarcity of NMOSD cases, consensus guidelines are challenging to establish. Most case series recommend a short course of immunosuppressive therapy (usually a corticosteroid), followed by chronic immunosuppressive therapy.[34] Treatment of the acute phase of NMOSD flare usually involves intravenous steroids such as methylprednisolone, often used in high doses (500-100 mg daily) for 5 to 10 days. Other studies advocate plasmapheresis treatment (55 mL/kg) and intravenous immunoglobulin.[35][36]

Objectives: Determine the etiology, epidemiology, pathophysiology, and histopathology of neuromyelitis optica spectrum disorder.Identify the clinical features and improve evaluation of patients with neuromyelitis optica spectrum disorder.Determine the differential diagnoses, complications, management, and prognosis of neuromyelitis optica spectrum disorder.Implement effective collaboration and communication among interprofessional team members to improve outcomes and treatment efficacy for patients with neuromyelitis optica spectrum disorder, including coordinating a comprehensive care plan. Access free multiple choice questions on this topic.

NMOSD may alternatively present less classically, and AQP4-IgG can also be present in other disorders (ie, isolated longitudinal extensive transverse myelitis, brainstem clinical manifestations, brainstem encephalitis, monophasic optic neuritis, or recurrent optic neuritis).[11] A patient presenting with neurologic manifestations of brainstem lesions (and intractable hiccups, vomiting, or narcolepsy) should have a complete neurologic exam. Typically, simultaneous bilateral vision loss and paraplegia are noted due to bilateral optic neuritis with transverse myelitis. However, optic neuritis and transverse myelitis may appear weeks apart.[21]

NMOSD is evaluated by clinical examination, serologic testing for the AQP4-IgG, and MRI with (and without) gadolinium. Diagnosis is based on core clinical characteristics and supplemented by additional testing. The international consensus diagnostic criteria were established in 2015, separating NMOSD into AQP4-IgG status (with testing, without testing, or unknown) and defining clinical and MRI characteristics of NMOSD.[3] Color vision testing may show a decrease in color vision, and visual field (including Humphrey visual field)[24] evaluation may show a central or centrocecal scotoma. Ancillary testing with optical coherence tomography can aid in the diagnosis and may reveal a thinner peripapillary nerve fiber layer than observed in MS cases.[25]

Neuromyelitis Optica. MRI showing inflammation of the spinal column, a common aspect of neuromyelitis optica. Contributed by Steve Lange, MD

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NMOSD has been increasingly recognized as a non-monophasic illness; rather, it follows a relapsing condition with events of disease exacerbation separated by years or decades.[17] Concurrent features of SLE, myasthenia gravis, autoimmune thyroid disease, Sjögren syndrome, and antiphospholipid antibody syndrome may be present.

Polarization, in Physics, is defined as a phenomenon caused due to the wave nature of electromagnetic radiation. Sunlight travels through the vacuum to reach the Earth, which is an example of an electromagnetic wave. These waves are called electromagnetic waves because they form when an electric field interacts with a magnetic field. In this article, you will learn about two types of waves, transverse waves and longitudinal waves. You will also learn about polarization and plane polarised light.

Because NMOSD can also present without ocular symptoms, the presentation and differential of NMOSD broaden significantly when the patient does not have ocular involvement. Still, the primary clinical entity on the differential is MS, but theoretically, any lesion causing MS-like symptoms could be on the differential of NMOSD.

The neuro-ophthalmologist is often initially involved in diagnosing patients with NMOSD, but patients may also initially present to a primary care provider or neurologist. It is essential to consult with an interprofessional team that includes the ophthalmologist, neurologist, radiologist, and primary care provider to provide adequate care for these patients. The nurse's role is vital as these patients often require hospital admission with rapid induction of intravenous steroids. The pharmacist will be critical in adjusting the appropriate steroid dose for the patient while considering other conditions the patient may have. The radiologist is also key in d appropriately based on MRI results. There aren't any large randomized clinical trials on diagnosing and treating NMOSD; therefore, reliance is primarily on consensus-based expert opinion, and diagnostic criteria are based on historical, case-control studies.[3]

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The other kind of wave is a polarized wave. Polarized waves are light waves in which the vibrations occur in a single plane. Plane polarized light consists of waves in which the direction of vibration is the same for all waves. In the image above, you can see that a plane polarized light vibrates on only one plane. The process of transforming unpolarized light into polarized light is known as polarization. The devices like the polarizers you see are used for the polarization of light.

Transverse waves are waves, in which the movement of the particles in the wave is perpendicular to the direction of motion of the wave.