Childhood absence epilepsy (CAE), also known as pyknolepsy, is an idiopathic generalized epilepsy

Idiopathic generalized epilepsy

Idiopathic generalized epilepsy is a group of epileptic disorders that are believed to have a strong underlying genetic basis. Patients with an IGE subtype are typically otherwise normal and have no anatomical brain abnormalities. Patients also often have a family history of epilepsy and seem to...

 which occurs in otherwise normal children. The age of onset is between 4–10 years with peak age between 5–7 years. Children have absence seizures which although brief (~4–20 seconds), they occur frequently, sometimes in the hundreds per day. The absence seizures of CAE involve abrupt and severe impairment of consciousness. Mild automatisms are frequent, but major motor involvement early in the course excludes this diagnosis. The EEG demonstrates characteristic "typical 3Hz spike-wave" discharges. Prognosis is excellent in well-defined cases of CAE with most patients "growing out" of their epilepsy.

Causes

CAE is a complex polygenic disorder. Particularly in the Han Chinese

Han Chinese

Han Chinese are an ethnic group native to China and are the largest single ethnic group in the world.Han Chinese constitute about 92% of the population of the People's Republic of China , 98% of the population of the Republic of China , 78% of the population of Singapore, and about 20% of the...

 population there is association between mutations in CACNA1H and CAE. These mutations cause increased channel activity and associated increased neuronal excitability. Seizures are believed to originate in the thalamus, where there is an abundance of T-type calcium channels such as those encoded by CACNA1H.

Pathophysiology

There are currently 20 mutations in CACNA1H associated with CAE. These mutations are likely not wholly causative and should instead be thought of as giving susceptibility. This is particularly true since some groups have found no connection between CAE and CACNA1H mutations. Many of the CACNA1H mutations have a measurable effect on channel kinetics, including activation time constant and voltage dependence, deactivation time constant, and inactivation time constant and voltage dependence (summarized in Table 1). Many of these mutations should lead to neuronal excitability, though others may lead to hypoexcitability. These predictions are due to mathematical modeling and may differ from what will occur in real neurons where other proteins, some of which may interact with CACNA1H, are present.

Along with mutations in CACNA1H, two mutations in the gene encoding a GABA_A receptor γ subunit are also associated with a CAE like phenotype that also overlaps with generalized epilepsy with febrile seizures plus type-3. The first of these, R43Q, abolishes benzodiazepine

Benzodiazepine

A benzodiazepine is a psychoactive drug whose core chemical structure is the fusion of a benzene ring and a diazepine ring...

 potentiation of GABA

Gabâ

Gabâ or gabaa, for the people in many parts of the Philippines), is the concept of a non-human and non-divine, imminent retribution. A sort of negative karma, it is generally seen as an evil effect on a person because of their wrongdoings or transgressions...

 induced currents. The second associated mutation, C588T has not been further characterized.
! rowspan="2" | Mutation
! rowspan="2" | Region
! colspan="2" | Activation
! rowspan="2" | Deactivation
! colspan="2" | Inactivation
! rowspan="2" | Excitability Prediction
! rowspan="2" | References> ! V₅₀
! Tau
! V₅₀
! Tau> ! F161L
| D1S2-3
| Unchanged*
| Unchanged
| style="background: green;" | Depolarized
| style="background: green;" | Accelerated
| Unchanged
| style="background: red;" | Hypoexcitable
| ^,,> ! E282K
| D1S5-6
| style="background: red;" | Hyperpolarized
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| style="background: red;" | Hypoexcitable
| ^,,> ! P314S
| D1-2
| ?
| ?
| ?
| ?
| ?
| ?
| > ! C456S
| D1-2
| style="background: red;" | Hyperpolarized
| style="background: green;" | Accelerated
| Unchanged
| Unchanged
| Unchanged
| style="background: green" | Hyperexcitable
| ^,,> ! A480T
| D1-2
| ?
| Unchanged
| ?
| ?
| Unchanged
| ?
| ^,> ! P492S
| D1-2
| ?
| ?
| ?
| ?
| ?
| ?
| ^,> ! G499S
| D1-2
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| ^,> ! P618L
| D1-2
| ?
| style="background: green;" | Accelerated
| ?
| ?
| style="background: green;" | Accelerated
| ?
| ^,> ! V621fsX654
| D1-2
| ?
| ?
| ?
| ?
| ?
| ?
| > ! P648L
| D1-2
| Unchanged
| Unchanged
| Unchanged
| style="background: green" | Depolarized
| style="background: red" | Slowed
| style="background: green" | Hyperexcitable
| ^,> ! R744Q
| D1-2
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| ^,> ! A748V
| D1-2
| Unchanged
| style="background: green;" | Accelerated
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| ^,> ! G755D
| D1-2
| ?
| Unchanged
| ?
| ?
| style="background: green;" | Accelerated
| ?
| ^,> ! G773D
| D1-2
| style="background: green;" | Depolarized
| style="background: red;" | Slowed
| style="background: red;" | Slowed
| style="background: green;" | Depolarized
| style="background: red;" | Slowed
| style="background: green" | Hyperexcitable
| ^,> ! G784S
| D1-2
| Unchanged
| style="background: red;" | Slowed
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| ^,> ! R788C
| D1-2
| style="background: green;" | Depolarized
| style="background: red;" | Slowed
| style="background: red;" | Slowed
| Unchanged
| style="background: red;" | Slowed
| style="background: green" | Hyperexcitable
| ^,> ! G773D + R788C
| D1-2
| Unchanged
| Unchanged
| style="background: red;" | Slowed
| Unchanged
| Unchanged
| style="background: green" | Hyperexcitable
| > ! V831M
| D2S2
| Unchanged
| style="background: red;" | Hyperpolarized
| style="background: red;" | Slowed
| style="background: green;" | Depolarized
| style="background: red;" | Slowed
| style="background: red;" | Hypoexcitable
| ^,,> ! G848S
| D2S2
| Unchanged
| Unchanged
| style="background: red;" | Slowed
| Unchanged
| Unchanged
| Unchanged
| ^,> ! D1463N
| D2S5-6
| Unchanged
| style="background: green;" | Accelerated
| Unchanged
| Unchanged
| Unchanged
| Unchanged
| ^,,> | align="right" |
| align="left" colspan="8" | Depending on experimental paradigm>

Table 1. Summary of mutations in CACNA1H associated with childhood absence epilepsy

Diagnosis

Diagnosis is made upon history of absence seizure

Absence seizure

Absence seizures are one of several kinds of seizures. These seizures are sometimes referred to as petit mal seizures ....

s during early childhood and the observation of ~3 Hz spike-and-wave discharges on an EEG

EEG

EEG commonly refers to electroencephalography, a measurement of the electrical activity of the brain.EEG may also refer to:* Emperor Entertainment Group, a Hong Kong-based entertainment company...

.

Epidemiology

Childhood absence epilepsy is a fairly common disorder with a prevalence of 1 in 1000 people. Few of these people will likely have mutations in CACNA1H or GABRG2 as the prevalence of those in the studies presented is 10% or less.

See also

• Generalized epilepsy with febrile seizures plus
  Generalized epilepsy with febrile seizures plus
  Generalized epilepsy with febrile seizures plus is a syndromic autosomal dominant disorder where afflicted individuals can exhibit numerous epilepsy phenotypes. GEFS+ can persist beyond early childhood...
  
  
• Calcium channel
  Calcium channel
  A Calcium channel is an ion channel which displays selective permeability to calcium ions. It is sometimes synonymous as voltage-dependent calcium channel, although there are also ligand-gated calcium channels.-Comparison tables:...
  
  
• Spike and Wave

External links

• Mechanisms of absence seizures (Scholarpedia)