Polymicrogyria

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Polymicrogyria is one of many malformations of cortical development (see classification system for cortical malformations), and along with grey matter heterotopias, falls under a bewildering group of conditions characterised by abnormalities both in migration of neurons to the cortex and abnormal cortical organization.

Epidemiology

Although often sporadic or genetic, polymicrogyria is also seen secondary to intrauterine cytomegalovirus (CMV) infection, vascular compromise in twins, or anomaly, mental retardation syndromes including:

It is often associated with schizencephaly: the schizencephalic cleft is 'always' lined by polymicrogyic cortex.

Clinical presentation

The clinical presentation is very varied, depending of the degree of involvement, bilaterality, and associated syndromes. Some patients are essentially normal. Others have epilepsy of varying severity. Others still are severely disabled ⁶.

Pathology

Thought to occur from a neuronal insult in late (after 20 weeks) gestation. There is abnormal arrangement and excessive folding of cerebral cortical cell layers. This can be associated with fusion of the gyral surfaces ³.

Some, such as bilateral perisylvian polymicrogyria have been mapped to a number of specific genetic mutations (e.g. autosomal dominant (22q11.2 and others)).

Radiographic features

Distribution is varied, however there is a predilection for the perisylvian region which is involved in 80% of patients and bilateral involvement is common (60%).

frontal: ~70%, gyrus rectus and cingulate gyrus typically spared
parietal: ~63%
temporal: ~38%, hippocampus typically spared
~~occipita~~ occipital: ~7%, visual cortex is typically spared

Recurring patterns of involvement have led to some morphological subtypes being described which include ⁴:

perisylvian: ~ 60%
generalized: ~13%
frontal: ~5%
parasagittal parieto-occipital: ~3%

CT

CT is insensitive to the actual morphological changes, only able to resolve thickened poorly formed gyri. The microgyri are too small to identify. Associated abnormalities may be readily visible however (e.g. schizencephaly).

MRI

MRI is the modality of choice for assessing polymicrogyria. Both morphology and signal intensity may be abnormal. Best diagnostic clue is focal cortical thickening.

Signal intensity

Polymicrogyric cortex usually has signal characteristics similar to normal grey matter. The subjacent white matter is not infrequently hyperintense on T2 weighted images (20-27%) which may relate to dilated perivascular spaces. Occasionally (<5%), and perhaps more so in patients with congenital infection, the abnormal cortex demonstrates regions of calcification.

Morphology

The numerous small gyri that lend their name to the condition are very small and only seen on thin section high resolution MRI, and even then may be difficult to distinguish from pachygyria, as both as associated with broad enlarged and often thickened gyri.

The grey-white junction is often the best location to identify the 'bumpy' contour which on thicker slices may manifest as blurring.

Treatment and prognosis

No specific treatment of polymicrogyria per se is available. Treatment is symptomatic and particularly aimed at controlling epilepsy, commonly present.

-</ul><p>It is often associated with <a href="/articles/schizencephaly">schizencephaly</a>: the schizencephalic cleft is 'always' lined by polymicrogyic cortex.</p><h4>Clinical presentation</h4><p>The clinical presentation is very varied, depending of the degree of involvement, bilaterality, and associated syndromes. Some patients are essentially normal. Others have epilepsy of varying severity. Others still are severely disabled <sup>6</sup>. </p><h4>Pathology</h4><p>Thought to occur from a neuronal insult in late (after 20 weeks) gestation. There is abnormal arrangement and excessive folding of cerebral cortical cell layers. This can be associated with fusion of the gyral surfaces <sup>3</sup>. </p><p>Some, such as <a href="/articles/bilateral-perisylvian-polymicrogyria">bilateral perisylvian polymicrogyria </a>have been mapped to a number of specific genetic mutations (e.g. autosomal dominant (22q11.2 and others))</p><h4>Radiographic features</h4><p>Distribution is varied, however there is a predilection for the perisylvian region which is involved in 80% of patients and bilateral involvement is common (60%). </p><ul>
+</ul><p>It is often associated with <a href="/articles/schizencephaly">schizencephaly</a>: the schizencephalic cleft is 'always' lined by polymicrogyic cortex.</p><h4>Clinical presentation</h4><p>The clinical presentation is very varied, depending of the degree of involvement, bilaterality, and associated syndromes. Some patients are essentially normal. Others have epilepsy of varying severity. Others still are severely disabled <sup>6</sup>. </p><h4>Pathology</h4><p>Thought to occur from a neuronal insult in late (after 20 weeks) gestation. There is abnormal arrangement and excessive folding of cerebral cortical cell layers. This can be associated with fusion of the gyral surfaces <sup>3</sup>. </p><p>Some, such as <a href="/articles/bilateral-perisylvian-polymicrogyria">bilateral perisylvian polymicrogyria </a>have been mapped to a number of specific genetic mutations (e.g. autosomal dominant (22q11.2 and others)).</p><h4>Radiographic features</h4><p>Distribution is varied, however there is a predilection for the perisylvian region which is involved in 80% of patients and bilateral involvement is common (60%). </p><ul>
~~-<li>occipita : ~7%, visual cortex is typically spared</li>~~
+<li>occipital: ~7%, visual cortex is typically spared</li>

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