Fabry disease (neurological manifestations)
Updates to Article Attributes
Fabry disease, also known as Anderson-Fabry disease, is a multisystem X-linked lysosomal storage disorder, with frequent neurological manifestations. It frequently has neurological manifestations,These are either due to direct involvement of the central nervous system, the peripheral nervous system and/or the autonomic nervous system, or due to secondary involvement (e.g. thromboembolic stroke due to cardiac involvement, or chronic hypertensive encephalopathy and hypertensive haemorrhages secondary to renal involvement).
This article focuses on neurological manifestations. For a general discussion of epidemiology, pathology and treatment, please refer to the article on Fabry disease.
Clinical presentation
The clinical presentation of patients with neurological involvement by Fabry disease depends on the specific manifestations. Cryptogenic stroke in young patients is a common presentation 1,2.
Central nervous system
Neurovascular presentations dominate central nervous system presentations including 1:
-
ischaemia
-
cerebral haemorrhage
-
complications of basilar dolichoectasia
brainstem compression
rupture and subarachnoid haemorrhage
In addition to acute presentation due to stroke and haemorrhage, accumulation of small vessel ischaemia contributes cognitive decline.
Peripheral nervous system
Acroparesthesia is a common manifestation, more so than ischaemic changes described above, and can be debilitating 6.
Autonomic nervous system
Autonomic (sympathetic) nervous system involvement can lead to gastrointestinal autonomic dysfunction.
Pathology
Most of the primary central nervous system manifestations of Fabry disease can be attributed to vascular dysfunction. This is believed to be a multifactorial process with damage resulting from deposition of glycolipids (e.g. globotriaosylceramide) in the media and enotheliumendothelium of blood vessels, as well as higher production of oxygen free-radicals and hyperperfusion 1,2. In larger vesslesvessels this tends to weaken the wall resulting in dilatation (dolichoectasia), whereas in small vessels this results in thickening of the wall with ensuing stensosisstenosis 1. This is often exacerbated by offent co-existingcoexisting hypertension due to renal invovmentinvolvement, endothelial dysfunction and pro-thromboticprothrombotic states.
There is a predilection for the vertebrobasilar ciculationcirculation accounting for disporoptionate frequencesdisproportionate frequencies of posterior circulation strokes and basilar artery dolichoectasia 1.
In 20-25% of patients mineralisation of deep grey matter structures is identified (best seen on MRI as intrinsic high T1 signal). This is believed to be due to local hyperperfusion 1.
Radiographic features
CT
CT and CTA can demonstartedemonstrate many of the features of Fabry disease, although generally these are better demonstrated on MRI (see below).
It is worth noting that occasionally hyperdensity in the pulvinar, located posteriorly within the thalumthalamus, can be seen as the CT correlate to the more frequently seem MRI pulvinar sign 1.
MRI
In addition to features of cortical or lacunar infractsinfarcts, MRI may demonstrate additional sequence specific-specific findings 1:
-
T1
high signals in the deep grey matter
pulvinar sign: most common, 20-25% of patients, almost exclusively males 1,4
-
T2
white matter hyperintensities particularly in the frontal and parietal lobes, can be seen in both symptomatic and asymptomatic patients
SWI: cerebral microhaemorrhages 3
-
MRA
-
dolichoectasia 1,2,5
mostly affects larger arteries 1
vertebrobasilar artery (most common)
anterior circulation: internal caroid arteries and proximal middle cerebral and anterior cerebral arteries
-
stensosisstenosismostly affects smaller arteries 1
-
Treatment and prognosis
For a discussion of systemic treatment, please refer to the general article on Fabry disease. It is worth noting, however, that MRI is used to monitor treatment response. Both T2 and T1 changes have been reported to regress with treatment if instituted early enough 2. Unfortunately, it has also become apparent that enzyme replacement therapy does not prevent progresiveprogressive vascular dysfunction and the ensuing complications 2.
-<p><strong>Fabry disease </strong>or <strong>Anderson-Fabry disease</strong> is a multisystem X-linked <a href="/articles/lysosomal-storage-disorders" title="Lysosomal storage disorders">lysosomal storage disorder</a>. It frequently has neurological manifestations, either due to direct involvement of the central nervous system, the peripheral nervous system and the autonomic nervous system, or due to secondary involvement (e.g. thromboembolic stroke due to cardiac involvement, or chronic hypertensive encephalopathy and hypertensive haemorrhages secondary to renal involvement).</p><p>This article focuses on neurological manifestations. For a general discussion of epidemiology, pathology and treatment, please refer to the article on <a href="/articles/fabry-disease" title="Fabry disease">Fabry disease</a>.</p><h4>Clinical presentation</h4><p>The clinical presentation of patients with neurological involvement by Fabry disease depends on the specific manifestations. Cryptogenic stroke in young patients is a common presentation <sup>1,2</sup>.</p><h5>Central nervous system</h5><p>Neurovascular presentations dominate central nervous system presentations including <sup>1</sup>:</p><ul>-<li>-<p>ischaemia</p>-<ul>-<li>-<p><a href="/articles/ischaemic-stroke" title="Cerebral infarction">acute cerebral infarction</a></p>-<ul>-<li><p>posterior circulation infracts (most common)</p></li>-<li><p>anterior circulation infarcts</p></li>-</ul>-</li>-<li><p><a href="/articles/lacunar-infarct" title="Lacunar infarcts">lacunar infarcts</a></p></li>-<li><p><a href="/articles/watershed-cerebral-infarction" title="Watershed infarct">watershed infarcts</a></p></li>-<li><p><a href="/articles/cerebral-small-vessel-disease" title="Chronic small vessel disease">chronic small vessel ischaemia</a></p></li>-</ul>-</li>-<li>-<p>cerebral haemorrhage</p>-<ul><li><p><a href="/articles/hypertensive-intracerebral-haemorrhage" title="Hypertensive intracerebral haemorrhage">primary hypertensive haemorrhages</a></p></li></ul>-</li>-<li>-<p>complications of <a href="/articles/dolichoectasia-1" title="Dolichoectasia">basilar dolichoectasia</a></p>-<ul>-<li><p>brainstem compression</p></li>-<li><p><a href="/articles/brainstem-stroke-syndromes" title="Brainstem infarct syndromes">brainstem infarction</a></p></li>-<li><p>rupture and <a href="/articles/subarachnoid-haemorrhage" title="Subarachnoid haemorrhage">subarachnoid haemorrhage</a></p></li>-<li><p><a href="/articles/acute-basilar-artery-occlusion" title="Basilar arterial thrombosis">basilar artery thrombosis</a></p></li>-</ul>-</li>-</ul><p>In addition to acute presentation due to stroke and haemorrhage, accumulation of small vessel ischaemia contributes cognitive decline.</p><h5>Peripheral nervous system</h5><p><a href="/articles/acroparesthesia" title="Acroparesthesia">Acroparesthesia</a> is a common manifestation, more so than ischaemic changes described above, and can be debilitating <sup>6</sup>.</p><h5>Autonomic nervous system</h5><p>Autonomic (sympathetic) nervous system involvement can lead to gastrointestinal autonomic dysfunction.</p><h4>Pathology</h4><p>Most of the primary central nervous system manifestations of Fabry disease can be attributed vascular dysfunction. This is believed to be a multifactorial process with damage resulting from deposition of glycolipids (e.g. globotriaosylceramide) in the media and enothelium of blood vessels, as well as higher production of oxygen free-radicals and hyperperfusion <sup>1,2</sup>. In larger vessles this tends to weaken the wall resulting in dilatation (dolichoectasia), whereas in small vessels this results in thickening of the wall with ensuing stensosis <sup>1</sup>. This is exacerbated by offent co-existing hypertension due to renal invovment, endothelial dysfunction and pro-thrombotic states.</p><p>There is a predilection for the vertebrobasilar ciculation accounting for disporoptionate frequences of posterior circulation strokes and basilar artery dolichoectasia <sup>1</sup>.</p><p>In 20-25% of patients mineralisation of deep grey matter structures is identified (best seen on MRI as intrinsic high T1 signal). This is believed to be due to local hyperperfusion <sup>1</sup>.</p><h4>Radiographic features</h4><h5>CT</h5><p>CT and CTA can demonstarte many of the features of Fabry, although generally these are better demonstrated on MRI (see below).</p><p>It is worth noting that occasionally hyperdensity in the pulvinar, located posteriorly within the thalum, can be seen as the CT correlate to the more frequently seem MRI pulvinar sign <sup>1</sup>.</p><h5>MRI</h5><p>In addition to features of cortical or lacunar infracts MRI may demonstrate additional sequence specific findings <sup>1</sup>:</p><ul>-<li>-<p><strong>T1</strong></p>-<ul>-<li><p>high signals in the deep grey matter</p></li>-<li><p><a href="/articles/pulvinar-sign-cns" title="Pulvinar sign (CNS)">pulvinar sign</a>: most common, 20-25% of patients, almost exclusively males <sup>1,4</sup></p></li>-</ul>-</li>-<li>-<p><strong>T2</strong></p>-<ul><li><p>white matter hyperintensities particularly in the frontal and parietal lobes can be seen in both symptomatic and asymptomatic patients</p></li></ul>-</li>-<li><p><strong>SWI:</strong> <a href="/articles/cerebral-microhaemorrhage" title="Cerebral microhaemorrhages">cerebral microhaemorrhages</a> <sup>3</sup></p></li>-<li>-<p><strong>MRA</strong></p>-<ul>-<li>-<p><a href="/articles/dolichoectasia-1" title="Dolichoectasia">dolichoectasia</a> <sup>1,2,5</sup></p>-<ul>-<li><p>mostly affects larger arteries <sup>1</sup></p></li>-<li><p>vertebrobasilar artery (most common)</p></li>-<li><p>anterior circulation: internal caroid arteries and proximal middle cerebral and anterior cerebral arteries</p></li>-</ul>-</li>-<li>-<p>stensosis</p>-<ul><li><p>mostly affects smaller arteries <sup>1</sup></p></li></ul>-</li>-</ul>-</li>-</ul><h4>Treatment and prognosis</h4><p>For a discussion of systemic treatment, please refer to the general article on <a href="/articles/fabry-disease" title="Fabry disease">Fabry disease</a>. It is worth noting, however, that MRI is used to monitor treatment response. Both T2 and T1 changes have been reported to regress with treatment if instituted early enough <sup>2</sup>. Unfortunately, it has also become apparent that enzyme replacement therapy does not prevent progresive vascular dysfunction and the ensuing complications <sup>2</sup>.</p>- +<p><strong>Fabry disease</strong>, also known as <strong>Anderson-Fabry disease</strong>, is a multisystem X-linked <a href="/articles/lysosomal-storage-disorders" title="Lysosomal storage disorders">lysosomal storage disorder</a>, with frequent <strong>neurological</strong> manifestations. These are either due to direct involvement of the <a href="/articles/central-nervous-system-1" title="Central nervous system">central nervous system</a>, the <a href="/articles/peripheral-nervous-system" title="Peripheral nervous system">peripheral nervous system</a> and/or the <a href="/articles/autonomic-nervous-system" title="Autonomic nervous system">autonomic nervous system</a>, or due to secondary involvement (e.g. thromboembolic stroke due to cardiac involvement, or <a href="/articles/hypertensive-microangiopathy" title="Chronic hypertensive encephalopathy">chronic hypertensive encephalopathy</a> and hypertensive haemorrhages secondary to renal involvement).</p><p>This article focuses on neurological manifestations. For a general discussion of epidemiology, pathology and treatment, please refer to the article on <a href="/articles/fabry-disease" title="Fabry disease">Fabry disease</a>.</p><h4>Clinical presentation</h4><p>The clinical presentation of patients with neurological involvement by Fabry disease depends on the specific manifestations. <a href="/articles/cryptogenic-stroke" title="Cryptogenic stroke">Cryptogenic stroke</a> in young patients is a common presentation <sup>1,2</sup>.</p><h5>Central nervous system</h5><p>Neurovascular presentations dominate central nervous system presentations including <sup>1</sup>:</p><ul>
- +<li>
- +<p>ischaemia</p>
- +<ul>
- +<li>
- +<p><a href="/articles/ischaemic-stroke" title="Cerebral infarction">acute cerebral infarction</a></p>
- +<ul>
- +<li><p><a href="/articles/posterior-circulation-infarction" title="Posterior circulation infarction">posterior circulation infarcts</a> (most common)</p></li>
- +<li><p><a href="/articles/anterior-circulation-infarction" title="Anterior circulation infarction">anterior circulation infarcts</a></p></li>
- +</ul>
- +</li>
- +<li><p><a href="/articles/lacunar-infarct" title="Lacunar infarcts">lacunar infarcts</a></p></li>
- +<li><p><a href="/articles/watershed-cerebral-infarction" title="Watershed infarct">watershed infarcts</a></p></li>
- +<li><p><a href="/articles/cerebral-small-vessel-disease" title="Chronic small vessel disease">chronic small vessel ischaemia</a></p></li>
- +</ul>
- +</li>
- +<li>
- +<p>cerebral haemorrhage</p>
- +<ul><li><p><a href="/articles/hypertensive-intracerebral-haemorrhage" title="Hypertensive intracerebral haemorrhage">primary hypertensive haemorrhages</a></p></li></ul>
- +</li>
- +<li>
- +<p>complications of <a href="/articles/dolichoectasia-1" title="Dolichoectasia">basilar dolichoectasia</a></p>
- +<ul>
- +<li><p>brainstem compression</p></li>
- +<li><p><a href="/articles/brainstem-stroke-syndromes" title="Brainstem infarct syndromes">brainstem infarction</a></p></li>
- +<li><p>rupture and <a href="/articles/subarachnoid-haemorrhage" title="Subarachnoid haemorrhage">subarachnoid haemorrhage</a></p></li>
- +<li><p><a href="/articles/acute-basilar-artery-occlusion" title="Basilar arterial thrombosis">basilar artery thrombosis</a></p></li>
- +</ul>
- +</li>
- +</ul><p>In addition to acute presentation due to stroke and haemorrhage, accumulation of small vessel ischaemia contributes cognitive decline.</p><h5>Peripheral nervous system</h5><p><a href="/articles/acroparesthesia" title="Acroparesthesia">Acroparesthesia</a> is a common manifestation, more so than ischaemic changes described above, and can be debilitating <sup>6</sup>.</p><h5>Autonomic nervous system</h5><p>Autonomic (sympathetic) nervous system involvement can lead to gastrointestinal autonomic dysfunction.</p><h4>Pathology</h4><p>Most of the primary central nervous system manifestations of Fabry disease can be attributed to vascular dysfunction. This is believed to be a multifactorial process with damage resulting from deposition of glycolipids (e.g. globotriaosylceramide) in the media and endothelium of blood vessels, as well as higher production of <a href="/articles/radicals" title="Free radicals">oxygen free-radicals</a> and hyperperfusion <sup>1,2</sup>. In larger vessels this tends to weaken the wall resulting in dilatation (dolichoectasia), whereas in small vessels this results in thickening of the wall with ensuing stenosis <sup>1</sup>. This is often exacerbated by coexisting hypertension due to renal involvement, endothelial dysfunction and prothrombotic states.</p><p>There is a predilection for the vertebrobasilar circulation accounting for disproportionate frequencies of posterior circulation strokes and basilar artery <a href="/articles/dolichoectasia-1" title="Dolichoectasia">dolichoectasia</a> <sup>1</sup>.</p><p>In 20-25% of patients mineralisation of deep grey matter structures is identified (best seen on MRI as intrinsic high T1 signal). This is believed to be due to local hyperperfusion <sup>1</sup>.</p><h4>Radiographic features</h4><h5>CT</h5><p>CT and CTA can demonstrate many of the features of Fabry disease, although generally these are better demonstrated on MRI (see below).</p><p>It is worth noting that occasionally hyperdensity in the pulvinar, located posteriorly within the thalamus, can be seen as the CT correlate to the more frequently seem <a href="/articles/pulvinar-sign-cns" title="Pulvinar sign (CNS)">MRI pulvinar sign</a> <sup>1</sup>.</p><h5>MRI</h5><p>In addition to features of cortical or lacunar infarcts, MRI may demonstrate additional sequence-specific findings <sup>1</sup>:</p><ul>
- +<li>
- +<p><strong>T1</strong></p>
- +<ul>
- +<li><p>high signals in the deep grey matter</p></li>
- +<li><p><a href="/articles/pulvinar-sign-cns" title="Pulvinar sign (CNS)">pulvinar sign</a>: most common, 20-25% of patients, almost exclusively males <sup>1,4</sup></p></li>
- +</ul>
- +</li>
- +<li>
- +<p><strong>T2</strong></p>
- +<ul><li><p>white matter hyperintensities particularly in the frontal and parietal lobes, can be seen in both symptomatic and asymptomatic patients</p></li></ul>
- +</li>
- +<li><p><strong>SWI:</strong> <a href="/articles/cerebral-microhaemorrhage" title="Cerebral microhaemorrhages">cerebral microhaemorrhages</a> <sup>3</sup></p></li>
- +<li>
- +<p><strong>MRA</strong></p>
- +<ul>
- +<li>
- +<p><a href="/articles/dolichoectasia-1" title="Dolichoectasia">dolichoectasia</a> <sup>1,2,5</sup></p>
- +<ul>
- +<li><p>mostly affects larger arteries <sup>1</sup></p></li>
- +<li><p>vertebrobasilar artery (most common)</p></li>
- +<li><p>anterior circulation: internal caroid arteries and proximal middle cerebral and anterior cerebral arteries</p></li>
- +</ul>
- +</li>
- +<li>
- +<p>stenosis</p>
- +<ul><li><p>mostly affects smaller arteries <sup>1</sup></p></li></ul>
- +</li>
- +</ul>
- +</li>
- +</ul><h4>Treatment and prognosis</h4><p>For a discussion of systemic treatment, please refer to the general article on <a href="/articles/fabry-disease" title="Fabry disease">Fabry disease</a>. It is worth noting, however, that MRI is used to monitor treatment response. Both T2 and T1 changes have been reported to regress with treatment if instituted early enough <sup>2</sup>. Unfortunately, it has also become apparent that enzyme replacement therapy does not prevent progressive vascular dysfunction and the ensuing complications <sup>2</sup>.</p>