Chorea-acanthocytosis also known as ChAc is an uncommon, inherited neurodegenerative disorder characterized by the gradual onset of movement abnormalities, especially chorea (involuntary movements), and the existence of spiky red blood cells termed acanthocytes. First described in the 1960s, ChAc is caused by changes in the VPS13A gene, which encodes the protein chorein, crucial for normal neuronal function. The disorder usually manifests in early adulthood and is often combined with psychiatric symptoms, cognitive decline, and muscle weakness. Diagnosis is confirmed through genetic testing, and while there is no cure, treatment focuses on managing symptoms.

Symptoms

The symptoms of Chorea-acanthocytosis vary widely but typically include:

  • Chorea: Involuntary movements that are often jerky and unpredictable.
  • Acanthocytosis: Abnormal, spiky red blood cells visible under a microscope.
  • Dystonia: Sustained muscle contractions that cause twisting and repetitive movements or abnormal postures.
  • Muscle Weakness: Gradual weakening of the muscles, often leading to difficulty with coordination, balance, and movement.
  • Orofacial Dyskinesia: Involuntary movements of the tongue, mouth, and face, often leading to biting of the lips or tongue.
  • Speech Difficulties: Slowed or slurred speech, known as dysarthria.
  • Swallowing Difficulties: Issues with swallowing, which can lead to aspiration or choking.
  • Seizures: Some people may experience epileptic seizures.
  • Cognitive Decline: Progressive loss of cognitive functions, including decision-making and memory.
  • Psychiatric Symptoms: Anxiety, depression, and other mood disturbances.

These symptoms typically emerge in early adulthood and slowly worsen over time.

Causes

Chorea-acanthocytosis is caused by changes in the VPS13A gene, which provides instructions for making a protein known as chorein. Chorein plays an important role in the function of neurons, particularly those involved in movement control. Changes in the VPS13A gene lead to a malfunction or deficiency of chorein, disturbing normal neuronal activity. This disruption mainly affects the basal ganglia, an area of the brain that controls movement, leading to the characteristic involuntary movements seen in ChAc.

In addition to its neurological impact, the absence of functional chorein also causes modifications in red blood cells, resulting in the formation of acanthocytes—spiky, irregularly shaped cells. The exact mechanism by which chorein deficiency leads to acanthocytosis is not fully understood, but it is thought to be related to changes in the cell membrane structure. ChAc is inherited in an autosomal recessive pattern, meaning that a person must inherit two copies of the mutated gene (one from each parent) to develop the disorder.

Diagnosis

The diagnosis of Chorea-acanthocytosis usually involves a combination of clinical evaluation, blood tests, and genetic testing. Clinicians first assess the characteristic signs, like chorea and orofacial dyskinesia, and acanthocytes in a blood smear. Neuroimaging, like MRI, may be utilized to observe modifications in the brain, particularly in the basal ganglia. However, the definitive diagnosis is confirmed through genetic testing to detect mutations in the VPS13A gene. Family history and genetic counseling are also essential components of the diagnostic process, particularly in cases with a known familial background of the disorder.

Treatment

The treatment of Chorea-acanthocytosis is mainly symptomatic, as there is currently no cure for the disorder. Medications are often used to manage the involuntary movements and muscle contractions linked with ChAc. Drugs like antipsychotics or tetrabenazine might be suggested to decrease chorea, while botulinum toxin injections can be utilized to alleviate dystonia, particularly in the orofacial muscles. Antiepileptic medications may be required if seizures happen, and antidepressants or antianxiety medications can help manage psychiatric symptoms like anxiety and depression.

Physical therapy plays an important role in the treatment of ChAc by helping patients maintain mobility, enhance coordination, and handle muscle weakness. Speech therapy is also important, as it can assist with communication difficulties and swallowing issues. In some cases, feeding tubes may be necessary to ensure proper nutrition if swallowing becomes severely impaired. Regular monitoring by a multidisciplinary team, including psychiatrists, neurologists, and physical therapists, is essential to address the various aspects of the disease and adjust treatment as required.

Supportive care is a key component of managing ChAc, focusing on improving the quality of life for both patients and their families. This may include counseling and support groups to help cope with the emotional and psychological impact of the disease. Genetic counseling is suggested for affected individuals and their families, particularly for those considering having children, to understand the inheritance patterns and risks. While ongoing research focuses on developing targeted therapies, current treatment strategies aim to manage symptoms and provide comprehensive care to address the multifaceted challenges of ChAc.

Prevention

Prevention of Chorea-acanthocytosis is challenging due to its genetic nature. As an inherited disorder, ChAc cannot be prevented after conception. However, people with a family history of ChAc or those known to carry VPS13A gene mutations may benefit from genetic counseling. This can provide prospective parents with information about the risks of passing the disorder to their offspring and the options available, like prenatal testing or preimplantation genetic diagnosis during in vitro fertilization. These options can help in making informed decisions about family planning.

For those already diagnosed with ChAc, while the progression of the disease cannot be stopped, early diagnosis and intervention can help manage symptoms more effectively and potentially delay the onset of serious complications. Regular observation and a proactive approach to managing symptoms, like starting physical and speech therapy early, can enhance the quality of life and help prevent secondary complications related to mobility, swallowing, and communication issues. Multidisciplinary care involving geneticists, neurologists, and other specialists is essential in providing comprehensive support for individuals and families affected by ChAc.

When to consult a healthcare provider

Consulting a healthcare provider is crucial when symptoms of Chorea-acanthocytosis first appear or if there is a family history of the disorder. Early signs, like involuntary movements, difficulty swallowing, muscle weakness, or changes in speech, warrant prompt evaluation. Additionally, genetic counseling should be sought if there is a known family history or concerns about inherited risk factors. Regular follow-up with healthcare professionals, including neurologists and specialists in movement disorders, is essential for managing symptoms, adjusting treatment plans, and addressing any complications that arise. Seeking medical advice early can lead to better management and improved quality of life.

Summary

Chorea-acanthocytosis is an uncommon genetic disorder caused by changes in the VPS13A gene, leading to movement abnormalities and spiky red blood cells. Symptoms include chorea, dysphagia, muscle weakness, and cognitive decline, with complications like seizures and social isolation. Treatment focuses on symptom management through medications, physical and speech therapy, and supportive care. Prevention involves genetic counseling and early intervention. Consulting a healthcare provider is important for early diagnosis and effective symptom management. Regular follow-up and multidisciplinary care increase the quality of life and address complications.

External links

  1. https://pubmed.ncbi.nlm.nih.gov/29620515/
  2. https://pubmed.ncbi.nlm.nih.gov/35130982/
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