Progressive myoclonus epilepsy
Progressive Myoclonic Epilepsies are a rare group of inherited neurodegenerative diseases characterized by myoclonus, resistance to treatment, and neurological deterioration. The cause of PME depends largely on the type of PME. Most PMEs are caused by autosomal dominant or recessive and mitochondrial mutations. The location of the mutation also affects the inheritance and treatment of PME. Diagnosing PME is difficult due to their genetic heterogeneity and the lack of a genetic mutation identified in some patients. The prognosis depends largely on the worsening symptoms and failure to respond to treatment. There is no current cure for PME and treatment focuses on managing myoclonus and seizures through antiepileptic medication.
The age of onset depends on the specific PME but PME can affect people of all ages. In Unverricht-Lundborg disease the age of onset is between 6–15 years, while in Adult Neuronal ceroid lipofuscinoses the age of onset can be as late as 30.
Symptoms often include action or stimuli induced myoclonus, seizures, neuropathy, cognitive decline, and spike and wave or no cerebral discharges. The prognosis of those diagnosed with PME is poor. The person often becomes reliant on a wheelchair, enters a vegetative state due to myoclonus, and has a shortened life expectancy.
Signs and symptoms
The most common symptom of PME is myoclonus. The myoclonus can be fragmented or multifocal and can be triggered by posture, actions, and external stimuli such as light, sound, and touch. The type of myoclonus differs between the types of PME. Other symptoms of PME include generalized, tonic clonic, tonic, and atypical absence seizures. In Lafora's disease the seizures are occipital and the person experiences transient blindness as well as visual hallucinations. The person may also have atypical absences and atonic and complex partial seizures. In Myoclonus epilepsy with ragged-red fibers the person experiences generalized epilepsy along with myoclonus, weakness, and dementia.As PME progresses neurological ability decreases and can lead to myopathy, neuropathy, cognitive decline, cerebellar ataxia, and dementia. The different symptoms in each of the PME and between individuals makes diagnosis difficult. Therefore, diagnosis of PME is dependent on failure to respond to antiepileptic drugs and therapy but diagnosis of specific PME depends on genetic testing, EEG, enzyme measurements and more.
Diagnosis
Diagnosis of PME is based on the individual's signs and symptoms as well as failure to respond to antiepileptic drugs and therapy. Further diagnosis support includes EEG results, genetic testing, enzyme testing, and skin and muscle biopsies. Gaucher's disease can be diagnosed through enzyme testing as it is a metabolic disease. Lafora's disease can be diagnosed using skin biopsies. While Action myoclonus renal failure syndrome can only be diagnosed using genetic test. Using EEG's as a form of diagnosis can prove difficult as patients differ in their neurophysiology. In Lafora's disease EEGs can show slowing background activity or focal discharges as well as epileptiform discharges. In ULD EEGs show generalized epileptiform discharges and in MERRF patients show background slowing. Therefore, diagnosis is best made using a combination of different tools like signs and symptoms, age of onset, EEG, gene testing, enzyme measurements, and biopsy of skin and muscle.Differential diagnosis
The main component setting PME apart from other forms of epilepsy is progressive deterioration and resistance to treatment. Therefore, in the early stages of PME the symptoms and EEG may appear like Generalized epilepsy, Juvenile myoclonic epilepsy, benign childhood myoclonic epilepsy, and Huntington's disease. It is crucial for ensure initial treatment is appropriate to measure how the condition progresses. Incorrect treatment can also result in wrong PME diagnosis.Management
The is no cure for PME. Efforts are instead placed in managing the symptoms, specifically the myoclonus and seizures as these can cause major harm to the individual. However, treating the symptoms with antiepileptic drugs can be difficult because PME individuals can become resistant. Some antiepileptic drugs used in treatment are valproic acid, benzodiazepines, phehobarbitaPrognosis
The prognosis of PME is ultimately dependent on the type of PME. In Lafora body disease the neurological deterioration progresses until resulting in a vegetative state and death within 10 years of diagnosis. Due to research and advances in antiepileptic medication, individuals with ULD can live up to 60 years of age. Nevertheless, severe myoclonus can lead to injury by falling and becoming reliant on a wheelchair.Research
Because PME is so rare it is hard to do studies specifically double blind studies used to test different antiepileptic drugs. The wide range of symptoms including the differing EEG makes studying the effects of the AEDs difficult. In ULD, oligonucleotide therapeutic strategies have been used to replace gene effects while in Sialidosis enzyme replacement therapy has been studied in mouse models. In Lafora's disease metformin has been approved for treatment by the European commission. In MERRF bacterial proteins have been identified in treatment in mitochondrial diseases but further studies are needed.History
The first instance where myoclonus and its relationship to epilepsy was in 1822 by Prichard. Lundborg was the first to name progressive myoclonus epilepsy in 1903 due to his study of several Swedish families as well as research done by Heinrich Unverricht in 1891. However, ULD was not recognized as a disease until a century later due to the rarity of the disease. In 1911, Lafora identified Lafora bodies but believed to be part of ULD. Lafora's genetics was not described until 1995.Specific disorders
Several conditions can cause progressive myoclonic epilepsy.- Unverricht-Lundborg disease (Baltic myoclonus)
- Myoclonus epilepsy and ragged red fibres (MERRF syndrome)
- Lafora disease
- Neuronal ceroid lipofuscinoses
- Sialidosis
- Dentatorubropallidoluysian atrophy (DRPLA)
- Noninfantile neuronopathic form of Gaucher disease
- Tetrahydrobiopterin deficiencies
- Alpers disease
- Juvenile Huntington disease
- Niemann-Pick disease type C
- North Sea progressive myoclonus epilepsy
Unverricht-Lundborg disease
This disease manifests between six and sixteen years and is most prevalent in Scandinavia and the Baltic countries. Myoclonus gradually becomes worse and less susceptible to medication. Cognitive decline is slow and sometimes mild. Patients typically do not live beyond middle-age, but there are exceptions. Phenytoin, an old and commonly used anticonvulsant, is known to seriously exacerbate the condition. It has autosomal recessive inheritance, and is caused by a mutation in the cystatin B (EPM1) gene on chromosome 21q22.3, which was discovered in 1996.It has been described as the least severe type of PME.