Cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL)

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Cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL) is a systemic genetic disorder affecting the cerebral small vessels, spine and hair follicles. It is inherited in an autosomal recessive pathway and should not be confused with its autosomal dominant counterpart CADASIL - autosomal recessive inherited diseases are usually more severe than autosomal dominant genetic disorders and CARASIL is no exception to this rule.

CARASIL is (after CADASIL) the second known genetic form of ~~ischemic~~ischaemic CNS disease caused by non-hypertensive microangiopathy in which the causative gene defect has been identified~~. It is sometimes referred to as~~ ~~Nemoto disease~~ ~~after the 1960 paper which initially described the entity as part of the~~ ~~Binswanger~~ ~~spectrum~~.

Epidemiology

CARASIL is a very rare disease with roughly 50 cases reported, until recently not outside Asia ¹. However a recent study has documented it in an European family ².

The true prevalence is unknown and CARASIL is probably under recognised, since no founder haplotype has been identified ¹and the recently encountered European disease carriers support the theory of a wider distribution^2,4.

Pathology

Gross pathology

Shows cerebral arteriosclerotic changes, most intense in white matter and basal ganglia.

Histopathology

Intense arteriosclerosis is seen predominantly in the small penetrating arteries. Aids in differentiation from other entities are the lack of amyloid deposition and absence of the granular appearance characteristics of CADASIL.

Extraneural changes are less severe and although they include the cutis, skin biopsies are not helpful in establishing the diagnosis.

Genetics

Mutations in HTRA1 ~~-gene~~ ongene on chromosome 10q (10q25.3-q26.2) are responsible for CARASIL. It codes for the ubiquitary HTRA1 enzyme, which regulates signaling by proteins in the transforming growth factor-beta (TGF-β) family, which again is essential for multiple critical cell functions including angiogenesis. The pivotal role of TGF-β in CARASIL is hypothesised, but not totally clarified.

Clinical presentation

Typically patients present in their young ages (twenties and thirties) with

premature alopecia (most common initial symptom)
relapsing ischaemic stroke-like episodes with gradually progressive vascular dementia
not infrequently symptomatic epilepsy (secondary to infarctions)
relapsing severe low back pain and deforming spondylosis (present in roughly 80% of patients, very early onset noteworthy)

Radiographic features

CNS manifestations

CT

diffuse homogeneous leukoaraiosis
ex-vacuo ventriculomegaly, predominantly lateral ventricles
in ~25% small hypodense areas located in the pontine base (possibly presenting Wallerian degeneration of the corticospinal tract)
absence of lacunes

MRMRI

diffuse leukoencephalopathy
multiple lacunar infarctions in the deep nuclei, most often
- basal ganglia
- thalamus

Musculoskeletal manifestations

~~May~~Changes may be ~~depicted~~appreciated by ~~x-ray~~plain radiograph, CT ~~and~~or MRI, and are those of:

deforming spondylosis with or without intervertebral space narrowing, located in the cervical and/or thoracolumbar spine
- typical location upper lumbar regions (which is in some contradiction to the sporadic spondylosis)
- kyphosis
elbow or knee osteoarthritis

Treatment and prognosis

As there are no causative treatment options, treatment ~~grossly contains~~focuses on the prevention of ~~ischemic~~ischaemic strokes. Interestingly, treatment with known antiplatelet agents and anticoagulant lacks evidence.

~~Further goals comprise treatment~~Another goal of management is to prevent the onset of dementia symptoms. Genetic counseling is also an important part of primary care.

History and etymology

It was first described by S Nemoto, a Japanese physician, in 1960 where it was initially described as part of the Binswanger spectrum ^5,6. Nemoto went on to publish a seminal case series with S Maeda et al. in 1976 ⁷. The disease is sometimes known as Nemoto disease or Maeda syndrome in recognition of their contributions.

Differential diagnosis

sporadic cerebral small vessel diseases (SVD)
encephalitis subcorticalis chronica progressiva (Binswanger disease)
primary angiitis of the CNS
progressive multiple sclerosis
- involvement of subcortical U-fibers is less pronounced in CARASIL
CADASIL
- symptom onset in CARASIL is 10-15 years earlier
- migraine and depression are not seen in CARASIL
- early white matter changes in CARASIL are homogenous rather than punctuate as seen in CADASIL

-<p><strong>Cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL) </strong>is a systemic genetic disorder affecting the cerebral small vessels, spine and hair follicles. It is inherited in an autosomal recessive pathway and should not be confused with its autosomal dominant counterpart <a href="/articles/cadasil">CADASIL</a> - autosomal recessive inherited diseases are usually more severe than autosomal dominant genetic disorders and CARASIL is no exception to this rule.</p><p>CARASIL is (after CADASIL) the second known genetic form of ischemic CNS disease caused by non-hypertensive microangiopathy in which the causative gene defect has been identified. It is sometimes referred to as <strong>Nemoto disease</strong> after the 1960 paper which initially described the entity as part of the <a title="Binswanger disease" href="/articles/subcortical-arteriosclerotic-encephalopathy-1">Binswanger</a> spectrum.</p><h4>Epidemiology</h4><p>CARASIL is a very rare disease with roughly 50 cases reported, until recently not outside Asia <sup>1</sup>. However a recent study has documented it in an European family <sup>2</sup>.</p><p>The true prevalence is unknown and CARASIL is probably under recognised, since no founder haplotype has been identified <sup>1 </sup>and the recently encountered European disease carriers support the theory of a wider distribution<sup> 2,4</sup>.</p><h4>Pathology</h4><h5>Gross pathology</h5><p>Shows cerebral arteriosclerotic changes, most intense in white matter and basal ganglia.</p><h5>Histopathology</h5><p>Intense arteriosclerosis is seen predominantly in the small penetrating arteries. Aids in differentiation from other entities are the lack of amyloid deposition and absence of the granular appearance characteristics of CADASIL.</p><p>Extraneural changes are less severe and although they include the cutis, skin biopsies are not helpful in establishing the diagnosis.</p><h5>Genetics</h5><p>Mutations in <em>HTRA1 -gene</em> on chromosome 10q (10q25.3-q26.2) are responsible for CARASIL. It codes for the ubiquitary HTRA1 enzyme, which regulates signaling by proteins in the transforming growth factor-beta (TGF-β) family, which again is essential for multiple critical cell functions including angiogenesis. The pivotal role of TGF-β in CARASIL is hypothesised, but not totally clarified.</p><h4>Clinical presentation</h4><p>Typically patients present in their young ages (twenties and thirties) with</p><ul>
+<p><strong>Cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL) </strong>is a systemic genetic disorder affecting the cerebral small vessels, spine and hair follicles. It is inherited in an autosomal recessive pathway and should not be confused with its autosomal dominant counterpart <a href="/articles/cadasil">CADASIL</a> - autosomal recessive inherited diseases are usually more severe than autosomal dominant genetic disorders and CARASIL is no exception to this rule.</p><p>CARASIL is (after CADASIL) the second known genetic form of ischaemic CNS disease caused by non-hypertensive microangiopathy in which the causative gene defect has been identified.</p><h4>Epidemiology</h4><p>CARASIL is a very rare disease with roughly 50 cases reported, until recently not outside Asia <sup>1</sup>. However a recent study has documented it in an European family <sup>2</sup>.</p><p>The true prevalence is unknown and CARASIL is probably under recognised, since no founder haplotype has been identified <sup>1 </sup>and the recently encountered European disease carriers support the theory of a wider distribution<sup> 2,4</sup>.</p><h4>Pathology</h4><h5>Gross pathology</h5><p>Shows cerebral arteriosclerotic changes, most intense in white matter and basal ganglia.</p><h5>Histopathology</h5><p>Intense arteriosclerosis is seen predominantly in the small penetrating arteries. Aids in differentiation from other entities are the lack of amyloid deposition and absence of the granular appearance characteristics of CADASIL.</p><p>Extraneural changes are less severe and although they include the cutis, skin biopsies are not helpful in establishing the diagnosis.</p><h5>Genetics</h5><p>Mutations in <em>HTRA1 </em>gene on chromosome 10q (10q25.3-q26.2) are responsible for CARASIL. It codes for the ubiquitary HTRA1 enzyme, which regulates signaling by proteins in the transforming growth factor-beta (TGF-β) family, which again is essential for multiple critical cell functions including angiogenesis. The pivotal role of TGF-β in CARASIL is hypothesised, but not totally clarified.</p><h4>Clinical presentation</h4><p>Typically patients present in their young ages (twenties and thirties) with</p><ul>
~~-</ul><h6>MR</h6><ul>~~
+</ul><h6>MRI</h6><ul>
~~-</ul><h5>Musculoskeletal manifestations</h5><p>May be depicted by x-ray, CT and MRI and are those of</p><ul>~~
+</ul><h5>Musculoskeletal manifestations</h5><p>Changes may be appreciated by plain radiograph, CT or MRI, and are those of:</p><ul>
-</ul><h4>Treatment and prognosis</h4><p>As there are no causative treatment options, treatment grossly contains prevention of ischemic strokes. Interestingly treatment with known antiplatelet agents and anticoagulant lacks evidence. </p><p>Further goals comprise treatment of dementia symptoms. Genetic counseling is also an important part of primary care.</p><h4>Differential diagnosis</h4><ul>
+</ul><h4>Treatment and prognosis</h4><p>As there are no causative treatment options, treatment focuses on the prevention of ischaemic strokes. Interestingly, treatment with known antiplatelet agents and anticoagulant lacks evidence. </p><p>Another goal of management is to prevent the onset of dementia symptoms. Genetic counseling is also an important part of primary care.</p><h4>History and etymology</h4><p>It was first described by <strong>S Nemoto</strong>, a Japanese physician, in 1960 where it was initially described as part of the <a href="/articles/subcortical-arteriosclerotic-encephalopathy-1">Binswanger</a> spectrum <sup>5,6</sup>. Nemoto went on to publish a seminal case series with <strong>S Maeda</strong> et al. in 1976 <sup>7</sup>. The disease is sometimes known as Nemoto disease or Maeda syndrome in recognition of their contributions.</p><h4>Differential diagnosis</h4><ul>

References changed:

5. Nemoto S. Einige beitrage zur Encephalitis subcorticalis chronica progressiva (Binswanger) [A note on chronic progressive subcortical encephalitis (Binswanger)]. In: Festschrift zum Rucktritt von Prof. Toshimi Ishibashi [Memorial for the retirement of Prof. Toshimi Ishibashi]. Sendai, Japan: Tohoku University, 1966:51-67
6. Fukutake T. Cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL): from discovery to gene identification. (2011) Journal of stroke and cerebrovascular diseases : the official journal of National Stroke Association. 20 (2): 85-93. <a href="https://doi.org/10.1016/j.jstrokecerebrovasdis.2010.11.008">doi:10.1016/j.jstrokecerebrovasdis.2010.11.008</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/21215656">Pubmed</a> <span class="ref_v4"></span>
7. Maeda S, Nakayama H, Isaka K, Aihara Y, Nemoto S. Familial unusual encephalopathy of Binswanger's type without hypertension. (1976) Folia psychiatrica et neurologica japonica. 30 (2): 165-77. <a href="https://www.ncbi.nlm.nih.gov/pubmed/971885">Pubmed</a> <span class="ref_v4"></span>

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