Early myoclonic encephalopathy

Early myoclonic encephalopathy is a syndrome characterized by:
- Frequent intractable seizures
- Severe early encephalopathy
- Limited development and reduced life expectancy
Frequent myoclonic seizures distinguish this syndrome from Ohtahara syndrome.
Early exclusion of treatable metabolic etiologies (especially pyridoxine and pyridoxal-5-phosphate disorders) is crucial.

Onset of seizures typically occurs within the first two months of life.
- More than half of the cases have seizure onset by 10 days of life.
Both sexes are equally affected.
Antecedent and birth history is usually normal.
Neurological examination reveals severe neurological impairment.
Abnormal neurological behavior may be present before the onset of seizures.
Head size is typically normal at onset; microcephaly may develop over time.
Severe developmental delay is common, with or without regression.

All patients experience frequent (near-continuous), fragmentary erratic myoclonus.
Myoclonus migrates from body part to body part asynchronously, asymmetrically, and randomly.
The face and limbs are commonly affected.
Myoclonus can be highly localized (e.g., to a finger, toe, eyelid, or lip).

Other Seizures:
- After the onset of myoclonus, focal seizures and later epileptic spasms or tonic seizures (generalized tonic or focal tonic) may occur.
- Focal seizures are often subtle and may be accompanied by tonic eye version and autonomic features (e.g., apnea or facial flushing).
- Massive, usually bisynchronous, axial myoclonic jerks may occur.

The background EEG is abnormal in all states, displaying a suppression-burst pattern.
High voltage bursts (150-300 µV) of spikes or sharp and slow waves, lasting 1-5 seconds, are seen with inter-burst intervals of 3-10 seconds.
EEG may evolve to a hypsarrhythmia pattern in children who develop West Syndrome or to a pattern of multifocal spikes and sharp waves at 3-4 months of age.

Erratic myoclonus usually does not have an ictal EEG pattern but may follow bursts on the EEG.
Focal seizures are associated with focal ictal discharges, often superimposed on the suppression-burst background.

Neuroimaging findings depend on the underlying cause.
Imaging is often normal at onset, but cerebral atrophy commonly develops over time.

Pattern of Inheritance:
- The condition is usually de novo, but this depends on the underlying etiology as metabolic disorders may be inherited in Mendelian fashion.
Known Genes:
- ErbB4, SLC25A22 (Cohen R et al., 2014), STXBP1 and SPTAN1 (Nicita et al., 2015), GABRB2 (Ishii A et al., 2017)
Family History of Seizures/Epilepsy:
- Family history of seizures or epilepsy is usually absent.
- A positive family history should prompt a search for a genetic or metabolic etiology.

Classic differentiation between Ohtahara syndrome and early myoclonic epilepsy
Differentiation between Ohtahara syndrome and early myoclonic epilepsy
	Ohtahara Syndrome	Early Myoclonic Encephalopathy
EEG pattern	Continuous suppression burst	Discontinuous pattern, suppression burst not always evident at first, and often more distinct during sleep
Primary seizure type	Tonic spasms	Myoclonus
Other seizure types	Focal motor seizures Hemiconvulsions Generalized tonic-clonic seizures	Focal motor seizuresTonic spasms
Major etiology	Structural lesions	Metabolic abnormalities
Evolution of disease	75% progress to West Syndrome, 12% progress to Lennox-Gastaut syndrome	Up to 50% develop transient atypical hypsarrhythmia, with subsequent return to the suppression burst pattern

Nicita F, Ulgiati F, Bernardini L, Garone G, Papetti L, Novelli A | display-authors=etal (2015) Early myoclonic encephalopathy in 9q33-q34 deletion encompassing STXBP1 and SPTAN1. Ann Hum Genet 79 (3):209-17. DOI: 10.1111/ahg.12106 PMID: 25779878.

Ishii A, Kang JQ, Schornak CC, Hernandez CC, Shen W, Watkins JC | display-authors=etal (2017) A de novo missense mutation of GABRB2 causes early myoclonic encephalopathy. J Med Genet 54 (3):202-211. DOI: 10.1136/jmedgenet-2016-104083 PMID: 27789573.