Cerebellar Disorders

ByAlex Rajput, MD, University of Saskatchewan;
Eric Noyes, MD, University of Saskatchewan
Reviewed/Revised Feb 2024
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Cerebellar disorders have numerous causes, including congenital malformations, hereditary ataxias, and acquired conditions. Symptoms vary with the cause but typically include ataxia (impaired muscle coordination). Diagnosis is clinical and often by imaging and sometimes genetic testing. Treatment is usually supportive unless the cause is acquired and reversible.

(See also Overview of Movement and Cerebellar Disorders.)

The cerebellum has 3 parts:

  • Archicerebellum (vestibulocerebellum): It includes the flocculonodular lobe, which is located in the medial zone. The archicerebellum helps maintain equilibrium and coordinate eye, head, and neck movements; it is closely interconnected with the vestibular nuclei.

  • Midline vermis (paleocerebellum): It helps coordinate trunk and leg movements. Vermis lesions result in abnormalities of stance and gait.

  • Lateral hemispheres (neocerebellum): They control quick and finely coordinated limb movements, predominantly of the arms and hands.

There is growing consensus that in addition to coordination, the cerebellum controls some aspects of memory, learning, and cognition.

Ataxia is the archetypal sign of cerebellar dysfunction, but many other motor abnormalities may occur (see table Signs of Cerebellar Disorders).

Table
Table

Etiology of Cerebellar Disorders

The most common cause of cerebellar disorders is

  • Alcoholic cerebellar degeneration

Congenital malformations

Such malformations are almost always sporadic, often occurring as part of complex malformation syndromes (eg, Dandy-Walker malformation) that affect other parts of the central nervous system (CNS).

Malformations manifest early in life and are nonprogressive. Manifestations vary markedly depending on the structures involved; ataxia is usually present.

Hereditary ataxias

Hereditary ataxias may be autosomal recessive or autosomal dominant. Autosomal recessive ataxias include Friedreich ataxia (the most prevalent), ataxia-telangiectasia, abetalipoproteinemia, ataxia with isolated vitamin E deficiency, and cerebrotendinous xanthomatosis.

Friedreich ataxia results from a gene mutation causing abnormal repetition of the DNA sequence GAA in the FXN gene on the long arm of chromosome 9; the FXN gene codes for the mitochondrial protein frataxin. The GAA sequence is repeated 5 to 38 times within the FXN gene in people who do not have Friedreich ataxia; however, in people with Friedreich ataxia, the GAA sequence may be repeated 70 to > 1000 times (1, 2). Inheritance is autosomal recessive. Decreased frataxin levels lead to mitochondrial iron overload and impaired mitochondrial function.

In Friedreich ataxia, gait unsteadiness begins between ages 5 and 15; it is followed by upper-extremity ataxia, dysarthria, and paresis, particularly of the lower extremities. Tremor, if present, is slight. Upgoing plantar responses are often present. Reflexes and vibration and position senses are lost. However, in late-onset Friedreich ataxia (age > 25 years), reflexes may be preserved. Talipes equinovarus (clubfoot), scoliosis, and progressive cardiomyopathy are common. By their late 20s, patients may be confined to a wheelchair. Death, often due to arrhythmia or heart failure, usually occurs by middle age. Formal neuropsychologic testing may detect a decline in cognitive function.

3).

Spinocerebellar ataxias (SCAs) are the main autosomal dominant ataxias. Classification of these ataxias has been revised many times recently as knowledge about genetics increases (4). Currently, at least 48 different gene loci are recognized; about 10 involve expanded DNA sequence repeats. Some involve a repetition of the DNA sequence CAG that codes for the amino acid glutamine, similar to that in Huntington disease.

Manifestations of SCAs vary. Some of the most common SCAs affect multiple areas in the central and peripheral nervous systems; neuropathy, pyramidal signs, and restless leg syndrome, as well as ataxia, are common. Some SCAs usually cause only cerebellar ataxia.

SCA type 3, formerly known as Machado-Joseph disease, may be the most common dominantly inherited SCA worldwide. Symptoms include ataxia, parkinsonism, and possibly dystonia, facial twitching, ophthalmoplegia, and bulging eyes.

Acquired conditions

Acquired ataxias may result from nonhereditary neurodegenerative disorders (eg, multiple system atrophy), systemic disorders, multiple sclerosis, cerebellar strokes, repeated traumatic brain injury, or toxin exposure, or they may be idiopathic. Systemic disorders include alcoholism (alcoholic cerebellar degeneration), thiamin deficiency, celiac disease, heatstroke, hypothyroidism, and .

Toxins that can cause cerebellar dysfunction include carbon monoxide

Rarely, subacute cerebellar degeneration occurs as a paraneoplastic syndrome in patients with breast cancer, ovarian cancer, small cell carcinoma of the lung, or other solid tumors. Cerebellar degeneration may precede the discovery of the cancer by weeks to years. Anti-Yo, now called PCA-1 (Purkinje cell cytoplasmic antibody type 1) is a circulating autoantibody that occurs in the serum or cerebrospinal fluid (CSF) of some patients, especially women with breast or ovarian cancer.

In children, primary brain tumors (medulloblastoma, cystic astrocytoma) may be the cause; the midline cerebellum is the most common site of such tumors. Rarely, in children, reversible diffuse cerebellar dysfunction follows viral infections.

Etiology references

  1. 1. Pandolfo M: Friedreich ataxia. Arch Neurol. 65 (10):1296–1303, 2008. doi: 10.1001/archneur.65.10.1296

  2. 2. Cook A, Giunti P: Friedreich's ataxia: clinical features, pathogenesis and management. Br Med Bull 124 (1):19–30, 2017. doi: 10.1093/bmb/ldx034

  3. 3. Lynch DR, Chin MP, Boesch S, et alMov Disord Feb;38 (2):313–320, 2023. doi: 10.1002/mds.29286. Epub 2022 Nov 29.

  4. 4. Lange LM, Gonzalez-Latapi P, Rajalingam R, et al: Nomenclature of genetic movement disorders: Recommendations of the International Parkinson and Movement Disorder Society Task Force - An update. Mov Disord 37 (5):905–935, 2022. doi: 10.1002/mds.28982 Epub 2022 Apr 28.

Diagnosis of Cerebellar Disorders

  • Clinical evaluation

  • Typically MRI

  • Sometimes genetic testing

Diagnosis of cerebellar disorders is clinical and includes a thorough family history and search for acquired systemic disorders.

Neuroimaging, typically MRI, is done. Genetic testing is done if family history is suggestive.

Treatment of Cerebellar Disorders

  • Treatment of the cause if possible

  • Usually only supportive

1).

Some systemic disorders (eg, hypothyroidism, celiac disease) and toxin exposure can be treated; occasionally, surgery for structural lesions (tumor, hydrocephalus) is beneficial. However, treatment is usually only supportive (eg, exercises to improve balance, posture, and coordination; devices to help with walking, eating, and other daily activities).

Treatment reference

  1. 1. Zesiewicz TA, Wilmot G, Kuo SH, et al: Comprehensive systematic review summary: Treatment of cerebellar motor dysfunction and ataxia. Report of the Guideline Development, Dissemination, and Implementation Subcommittee of the American Academy of Neurology. Neurology 90 (10):464–471, 2018. doi: 10.1212/WNL.0000000000005055

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