Osmotic demyelination syndrome

Changed by Frank Gaillard, 10 Oct 2018

Updates to Article Attributes

Body was changed:

Show markup changes

Osmotic demyelination syndrome refers to acute demyelination seen in the setting of osmotic changes, typically with the rapid correction of hyponatraemia. It is the more recent term replacing central pontine myelinolysis, recognising that extrapontine structures can also be affected, previously known as extrapontine myelinolysis.

Epidemiology

The initial description of central pontine myelinolysis by Adams et al. in 1959 ² was entirely in a population of chronic alcoholics, and certainly, this scenario is common. Since then it has been increasingly recognised in other patient groups, but usually in the setting of rapidly corrected electrolyte disturbance:

chronic alcoholics
chronically debilitated patients
transplant recipients

Clinical presentation

Clinically osmotic demyelination syndrome presents in a biphasic pattern. The first phase is usually attributable not to the demyelination but rather to the inciting electrolyte abnormality, with patients being acutely encephalopathic. Following rapid reversal of this abnormality, the patient transiently improves before progressing onto the classic osmotic demyelination syndrome features 2-3 days later. When pontine involvement is prominent, clinical features consist of:

spastic quadriparesis
pseudobulbar palsy
changes in levels of consciousness
coma
death

Pathology

Although the exact mechanism is still uncertain, it is known that oligodendroglial cells are most susceptible to osmotic stresses, leading to their demise. It is not surprising that the distribution of osmotic myelinolysis, therefore, parallels the distribution of these cells.

Histologically, osmotic demyelination syndrome is characterised by intramyelinitic splitting, vacuolisation and myelin sheath rupture ³. After many days, macrophages can be identified.

Radiographic features

CT

CT may demonstrate low attenuation crossing the midline in the lower pons. However, CT assessment of the skull base can be difficult due to beam hardening artifact and, if available, MRI is preferred.

MRI

The earliest change is seen on DWI with restriction in the lower pons. This is seen within 24 hours of the onset of quadriplegia ³. This same region demonstrates eventual high T2 signal and later low T1 signal. The T1 and T2 changes may take up to two weeks to develop. This region has a classic trident shaped appearance. ~~If the areas of demyelination coalesce,~~The overall appearance on T2/FLAIRaxial MR images ~~resemble~~has also been likened to the face of a ~~piglet~~pig, referred to as piglet sign. Occasionally gadolinium enhancement is also demonstrated, just as in the acute phase of m ultiple sclerosis (MS) plaque. The peripheral fibres (ventrolateral longitudinal fibres), as well as the periventricular and subpial regions, are typically spared.

Similar appearances are seen in other parts of the brain: basal ganglia, midbrain and subcortical white matter.

Signal characteristics of the affected region include:

T1: mildly or moderately hypointense
T2: hyperintense, sparing the periphery and corticospinal tracts
PD: hyperintense
FLAIR: hyperintense
DWI: hyperintense
ADC: signal low or signal loss
T1 C+ (Gd): usually there is no enhancement, but some authors reported that it may occur ^5-6

PET

Affected regions may demonstrate initial high uptake followed by subsequent low uptake with 18-FDG.

Differential diagnosis

General imaging differential considerations include:

demyelination including multiple sclerosis (MS)
infarction from basilar perforators can be central, although usually, brainstem infarcts stop at the midline
pontine neoplasms including astrocytomas

-</ul><h4>Pathology</h4><p>Although the exact mechanism is still uncertain, it is known that oligodendroglial cells are most susceptible to osmotic stresses, leading to their demise. It is not surprising that the distribution of osmotic myelinolysis, therefore, parallels the distribution of these cells.</p><p>Histologically, osmotic demyelination syndrome is characterised by intramyelinitic splitting, vacuolisation and myelin sheath rupture <sup>3</sup>. After many days, macrophages can be identified.</p><h4>Radiographic features</h4><h5>CT</h5><p>CT may demonstrate low attenuation crossing the midline in the lower <a href="/articles/pons">pons</a>. However, CT assessment of the skull base can be difficult due to <a href="/articles/beam-hardening">beam hardening artifact</a> and, if available, MRI is preferred.</p><h5>MRI</h5><p>The earliest change is seen on DWI with restriction in the lower pons. This is seen within 24 hours of the onset of quadriplegia <sup>3</sup>. This same region demonstrates eventual high T2 signal and later low T1 signal. The T1 and T2 changes may take up to two weeks to develop. This region has a classic <a href="/articles/trident-sign-cns">trident shaped appearance</a>. If the areas of demyelination coalesce, T2/FLAIR<br>axial MR images resemble the face of a piglet, referred to as <a title="Piglet sign (CNS)" href="/articles/piglet-sign-cns">piglet sign</a>. Occasionally gadolinium enhancement is also demonstrated, just as in the acute phase of <a href="/articles/multiple-sclerosis">m</a><a href="/articles/multiple-sclerosis">ultiple</a> sclerosis (MS<a href="/articles/multiple-sclerosis">)</a> plaque. The peripheral fibres (ventrolateral longitudinal fibres), as well as the periventricular and subpial regions, are typically spared.</p><p>Similar appearances are seen in other parts of the brain: basal ganglia, midbrain and subcortical white matter. </p><p>Signal characteristics of affected region include:</p><ul>
+</ul><h4>Pathology</h4><p>Although the exact mechanism is still uncertain, it is known that oligodendroglial cells are most susceptible to osmotic stresses, leading to their demise. It is not surprising that the distribution of osmotic myelinolysis, therefore, parallels the distribution of these cells.</p><p>Histologically, osmotic demyelination syndrome is characterised by intramyelinitic splitting, vacuolisation and myelin sheath rupture <sup>3</sup>. After many days, macrophages can be identified.</p><h4>Radiographic features</h4><h5>CT</h5><p>CT may demonstrate low attenuation crossing the midline in the lower <a href="/articles/pons">pons</a>. However, CT assessment of the skull base can be difficult due to <a href="/articles/beam-hardening">beam hardening artifact</a> and, if available, MRI is preferred.</p><h5>MRI</h5><p>The earliest change is seen on DWI with restriction in the lower pons. This is seen within 24 hours of the onset of quadriplegia <sup>3</sup>. This same region demonstrates eventual high T2 signal and later low T1 signal. The T1 and T2 changes may take up to two weeks to develop. This region has a classic <a href="/articles/trident-sign-cns">trident shaped appearance</a>. The overall appearance on T2/FLAIR<br>axial MR images has also been likened to the face of a pig, referred to as <a href="/articles/piglet-sign-osmotic-demyelination">piglet sign</a>. Occasionally gadolinium enhancement is also demonstrated, just as in the acute phase of <a href="/articles/multiple-sclerosis">m</a><a href="/articles/multiple-sclerosis">ultiple</a> sclerosis (MS<a href="/articles/multiple-sclerosis">)</a> plaque. The peripheral fibres (ventrolateral longitudinal fibres), as well as the periventricular and subpial regions, are typically spared.</p><p>Similar appearances are seen in other parts of the brain: basal ganglia, midbrain and subcortical white matter. </p><p>Signal characteristics of the affected region include:</p><ul>
~~-<li>infarction from basilar perforators can be central, although usually <a href="/articles/brainstem">brainstem</a> infarcts stop at the midline</li>~~
+<li>infarction from basilar perforators can be central, although usually, <a href="/articles/brainstem">brainstem</a> infarcts stop at the midline</li>

ADVERTISEMENT: Supporters see fewer/no ads

{"current_user":null,"inclusions":[{"imageId":974,"studyId":6296,"caseSlug":"central-pontine-myelinolysis-1","caption":"Case 1","thumbnail":"https://prod-images-static.radiopaedia.org/images/974/9e9e665d5d28a9148d765798653e74_big_gallery.jpeg","isStack":false,"diagnosticCertainty":"possible"},{"imageId":566340,"studyId":11650,"caseSlug":"central-pontine-myelinolysis","caption":"Case 2","thumbnail":"https://prod-images-static.radiopaedia.org/images/566340/1d6bccfb7de456b12ac894af9b09f4_big_gallery.jpg","isStack":false,"diagnosticCertainty":"probable"},{"imageId":636685,"studyId":13168,"caseSlug":"osmotic-demyelination-syndrome-1","caption":"Case 3: CPM and EPM","thumbnail":"https://prod-images-static.radiopaedia.org/images/636685/dd7db2022a8af7479caec752b4bacd_big_gallery.jpg","isStack":false,"diagnosticCertainty":"confirmed_unsubstantiated"},{"imageId":636686,"studyId":13168,"caseSlug":"osmotic-demyelination-syndrome-1","caption":"Case 3: CPM and EPM","thumbnail":"https://prod-images-static.radiopaedia.org/images/636686/2142309814a883169b104bf94347b2_big_gallery.jpg","isStack":false,"diagnosticCertainty":"confirmed_unsubstantiated"},{"imageId":1928579,"studyId":17384,"caseSlug":"central-pontine-and-extrapontine-myelinolysis","caption":"Case 4: CPM and EPM","thumbnail":"https://prod-images-static.radiopaedia.org/images/1928579/5c8cdec865c79b712556ab1be623b0_big_gallery.jpg","isStack":false,"diagnosticCertainty":"probable"},{"imageId":1933324,"studyId":17414,"caseSlug":"osmotic-demyelination-syndrome-15","caption":"Case 5: CPM and EPM","thumbnail":"https://prod-images-static.radiopaedia.org/images/1933324/0f85f0637b45cdf59046e6167b6dab23062514265a32d86a5cc1dc589440bc0a_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_unsubstantiated"},{"imageId":2474989,"studyId":19977,"caseSlug":"osmotic-demyelination-syndrome-10","caption":"Case 6: ADC","thumbnail":"https://prod-images-static.radiopaedia.org/images/2474989/28bd215f14c2c308fee1b233c08083_big_gallery.jpg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":3114712,"studyId":22454,"caseSlug":"central-pontine-myelinolysis-2","caption":"Case 7","thumbnail":"https://prod-images-static.radiopaedia.org/images/3114712/7494a12a01b7141433b5c17aed071d_big_gallery.jpg","isStack":true,"diagnosticCertainty":"confirmed_unsubstantiated"},{"imageId":3430200,"studyId":23124,"caseSlug":"central-pontine-myelinolysis-3","caption":"Case 8","thumbnail":"https://prod-images-static.radiopaedia.org/images/3430200/86be0c9b7bcd7ee860827c6d022eca_big_gallery.jpg","isStack":true,"diagnosticCertainty":"probable"},{"imageId":12553152,"studyId":38331,"caseSlug":"central-pontine-myelinolysis-5","caption":"Case 9","thumbnail":"https://prod-images-static.radiopaedia.org/images/12553152/d0eb89aeeac37b4e4e551380834d30_big_gallery.jpg","isStack":true,"diagnosticCertainty":"probable"},{"imageId":18272007,"studyId":44789,"caseSlug":"trident-sign-osmotic-demyelination","caption":"Case 10: with trident appearance","thumbnail":"https://prod-images-static.radiopaedia.org/images/18272007/c58b2162579c7f42fabb80bf7989c0_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_unsubstantiated"},{"imageId":21246825,"studyId":47801,"caseSlug":"osmotic-demyelination-syndrome-3","caption":"Case 11","thumbnail":"https://prod-images-static.radiopaedia.org/images/21246825/3d4cea3537950b8176628408f266ac_big_gallery.jpeg","isStack":false,"diagnosticCertainty":"confirmed_unsubstantiated"},{"imageId":35614524,"studyId":65207,"caseSlug":"central-pontine-myelinolysis-7","caption":"Case 12","thumbnail":"https://prod-images-static.radiopaedia.org/images/35614524/e49db1efad9b8bed46b2e4c45df462_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_unsubstantiated"},{"imageId":59638185,"studyId":126454,"caseSlug":"osmotic-demyelination-syndrome-18","caption":"Case 13","thumbnail":"https://prod-images-static.radiopaedia.org/images/59638185/85c17121e98ec80fd75443a7f26469e8476262728bf5c0850e226121b95b50cb_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"probable"}],"ddx_inclusions":[{"imageId":31649,"studyId":8138,"caseSlug":"pontine-infarct","caption":"Pontine infarction","thumbnail":"https://prod-images-static.radiopaedia.org/images/31649/27157437c0017ffa43466959d10f79_big_gallery.jpg","isStack":false,"diagnosticCertainty":"confirmed_substantiated"}],"lang":"us"}