ACKNOWLEDGEMENTS AND DISCLOSURES

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HISTORICAL NOTE AND NOMENCLATURE

CLINICAL MANIFESTATIONS

Benign childhood epilepsy with centrotemporal spikes begins between 2 and 13 years of age. In 80% of patients, seizures appear between 5 and 10 years of age. Patients usually recover before age 16 (Beaussart 1972).
Most of the seizures reflect discharges in the precentral and postcentral gyri in the suprasylvian region with motor, sensory, and autonomic manifestations in the face, mouth, and throat (Loiseau and Beaussart 1972). This is associated with independently bilateral, repetitive, broad, centrotemporal interictal EEG spikes displaying a characteristic transverse dipolar pattern (Gregory and Wong 1984).
Loiseau and Duche provided five criteria for the diagnosis of benign childhood epilepsy with centrotemporal spikes: (1) onset between the ages of 2 and 13; (2) absence of neurologic or intellectual deficit before the onset; (3) partial seizures with motor signs, frequently associated with somatosensory symptoms or precipitated by sleep; (4) a spike focus located in the centrotemporal (rolandic) area with normal background activity on the interictal EEG; and (5) spontaneous remission during adolescence (Loiseau and Duche 1989).
The oropharyngeal and facial manifestations include drooling from hypersalivation and swallowing disturbance; guttural sounds; involuntary movements or tonic contractions of the tongue or jaw; unilateral numbness or paresthesia of the tongue, lips, gums, and cheek; speech arrest; and myoclonic contraction of one side of the face. Sensorimotor phenomena involving a leg, or half body, and miscellaneous symptoms such as abdominal pain, can also occur (Loiseau and Beaussart 1972).
Although partial seizures are characteristic of this disorder, generalized seizures are not infrequently observed, particularly in younger children (Luders et al 1987; Lerman 1998). The initial event is often a nocturnal hemifacial convulsion, which may spread to the arm and the leg or may become secondarily generalized. The ictal patterns vary from child to child; and, in some patients, from seizure to seizure. Each individual patient usually has a single type of seizure, but 20% to 25% of children experience more than one type (Loiseau and Duche 1989).
More than one-half of patients with benign childhood epilepsy with centrotemporal spikes have seizures only during sleep, whether during the day or the night. Seizures during waking hours are more likely to occur shortly after awakening (Luders et al 1987). Seizure frequency is usually low and around 10% of cases present only one seizure. However, in about 20% of children, seizures are frequent and may even occur several times per day (Dalla Bernardina et al 2002). It has been stated that the only predictor for a disease course in children with multiple seizures is an onset before three years of age (Kramer et al 2002).
Behavioral problems are less frequent than in other forms of childhood epilepsy (Heijbel and Bohman 1975). In a study of 40 children with centrotemporal spikes with and without seizures compared with 40 healthy controls, patients were significantly impaired in IQ, visual perception, short-term memory, and psychiatric status. The deficits in IQ were more correlated with frequency of spikes in the EEG than with the frequency of seizures (Weglage et al 1997). Similar findings were reported in 19 children with this syndrome (Deonna et al 2000). Another interesting finding is that in children with “attention deficit hyperactivity disorder,” an increased frequency of Rolandic spikes was found (Holtmann et al 2003). A longitudinal study of 1 boy with acquired epileptic dysgraphia was reported. Most probably, in this case, the acquired regression of graphomotor skills was associated with an increase in spike frequency as happens in the cases with atypical evolutions of this syndrome (Dubois et al 2003).
Atypical features in benign childhood epilepsy with centrotemporal spikes can be seen on clinical grounds (daytime-only seizures, post-ictal Todd paresis, prolonged seizures, or even status epilepticus), or in EEG features (atypical spike morphology, unusual location, or abnormal background). In a retrospective case series, atypical clinical features were seen in 50% of patients and atypical electrographic features in 31% (Wirrell et al 1995). More recently a follow-up study of 74 children with typical rolandic epilepsy and 14 with atypical features was reported and a significant higher percentage of learning and behavioral disabilities was found in the second group (Verrotti et al 2002).
Several cases of partial status epilepticus in this condition have been reported. The manifestations include hemifacial seizures, dysarthria or anarthria, and persistent drooling (Fejerman and Di Blasi 1987; Roulet et al 1989; Colamaria et al 1991; Fejerman et al 2000; Kramer et al 2001; Gregory et al 2002; Salas-Puig et al 2002).

CLINICAL VIGNETTE

No information was provided by the author.

ETIOLOGY

The characteristic centrotemporal EEG spike pattern in benign childhood epilepsy is inherited as an autosomal-dominant trait with variable penetrance (Heijbel et al 1975). This type of inheritance was also suggested by studies of monozygotic twins with rolandic discharges (Kajitani et al 1980), and HLA antigens and their haplotypes (Eeg-Olofsson 1992). However, in another study of clinical and genetic aspects in children with benign focal sharp waves, including 134 probands with seizures (24% of which had typical rolandic seizures), the findings were in agreement with a multifactorial pathogenesis of epilepsies with “benign” focal epileptiform sharp waves (Doose et al 1997). Epileptic seizures appear in only 25% or less of individuals with this EEG trait (Luders et al 1987). Expression of the gene may be influenced by other genetic and environmental factors (Loiseau and Duche 1989).
A family with nine affected individuals in three generations was reported showing the features of rolandic epilepsy associated with oral and speech dyspraxia and cognitive impairment (Scheffer et al 1995).
Linkage to chromosome 15q14 was found in 54 patients of 22 families with benign childhood epilepsy with centrotemporal spikes (Neubauer et al 1998). However, in a study of 70 families with the same syndrome in Italy, the mentioned linkage could not be found (Pruna et al 2000). A similar seizures and EEG phenotype of benign childhood epilepsy with centrotemporal spikes was found in 3 children with “de novo” terminal deletions of the long arm of chromosome 1q and the authors suggested that it could be a potential site for a candidate gene (Vaughn et al 1996).

PATHOGENESIS AND PATHOPHYSIOLOGY

Although the pathophysiology of benign childhood epilepsy with centrotemporal spikes is unknown, and there is no associated structural lesion, the typical focal ictal clinical behavior and EEG discharge indicate a disturbance in the sylvian and rolandic areas. Electrophysiologic studies, however, fail to demonstrate a discrete generator, and a large, shifting area of dysfunction may be present. In some patients with benign childhood epilepsy with centrotemporal spikes, the occurrence of generalized spike-wave EEG discharges, as well as focal spikes in other areas, suggests a relationship between this disorder and the idiopathic generalized epilepsies, as well as with other idiopathic localization-related partial epilepsies (Luders et al 1987; Lerman and Kivity 1991). Ten percent to 20% of patients with centrotemporal spikes may also have sharp slow wave complexes in other cortical locations (Panayiotopoulos 1999).
The cornerstone of the diagnosis of benign childhood epilepsy with centrotemporal spikes lies in the characteristic interictal EEG pattern: centrotemporal spikes on normal background activity. The centrotemporal spikes are typically seen independently on both sides of the head. They are broad, diphasic, high-voltage (100-microvolts to 300-microvolts) spikes, with a transverse dipole, and they are often followed by a slow wave. The spikes may occur isolated or in clusters, with a rhythm of about 1.5 Hz to 3 Hz (Loiseau and Duche 1989). Focal rhythmic slow activity is occasionally observed in the region where the spikes are seen (Mitsudome et al 1997b). Generalized 3 Hz spike-and-waves and focal spikes in other brain areas can also be seen in a minority of children (Beydoun et al 1992).
The centrotemporal spikes are not enhanced by eye opening or closure, by hyperventilation, or by photic stimulation. Even more, it has been reported that hyperventilation reduces the frequency of Rolandic spikes (Watanabe 2004). The discharge rate is increased in drowsiness and in all stages of sleep, and in about one third of children, the spikes appear only in sleep (Lombroso 1967). The sleep EEG organization is preserved (Dalla Bernardina and Beghini 1976). There is no correlation between intensity of spike discharges in the EEG and frequency, length, or duration of clinical seizures (Lerman and Kivity 1975).
The ictal EEG discharge begins focally in the centrotemporal area and then spreads to adjacent areas or generalizes. Ictal onset may shift from side to side (Gibbs et al 1954; Dalla Bernardina 1975).
Several authors emphasized the characteristic dipolar pattern in the EEG (Gregory and Wong 1984; Lischka and Graf 1992; Tsai and Hung 1998). Two groups of patients have been disclosed according to EEG findings (maximal negativity was registered in high- and low-central regions, but never in midtemporal regions), a high-central region group with more frequent hand involvement and the low-central group with common orofacial symptoms.
Combined recording of interictal spikes and somatosensory-evoked potentials concluded that in some patients multiple simultaneous neuronal populations are active within the central region (Baumgartner et al 1996).
Magnetoencephalographic analysis of generator and propagation of rolandic discharges in benign childhood epilepsy with centrotemporal spikes with neuromagnetic three-dimensional dipole localization suggested that rolandic discharges are generated through a mechanism similar to that of somatosensory-evoked responses (Minami et al 1996). A localization analysis of spontaneous magnetic brain activities also suggested the value of magnetoencephalography for pathophysiological elucidation (Kamada et al 1998). Six children with bilateral centrotemporal synchronous discharges were studied using magnetoencephalography and EEG with equivalent current dipole modelling. Results implied cortical epileptogenicity in bilateral perirolandic areas (Lin et al 2003). Interictal spikes were recorded during fMRI acquisition in a MR-compatible digital EEG system in 7 children, and the spike-related activation in the perisylvian central region was found in 3 of them (Boor et al 2003).

EPIDEMIOLOGY

PREVENTION

DIFFERENTIAL DIAGNOSIS

DIAGNOSTIC WORKUP

PROGNOSIS AND COMPLICATIONS

MANAGEMENT

PREGNANCY

ANESTHESIA

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ILAE.

Abbreviations

ICD Code

SYNONYMS

ASSOCIATED DISORDERS

MAJOR KEYWORD DESCRIPTORS

MINOR KEYWORD DESCRIPTORS

AGE OF PRESENTATION

AGE OF TYPICAL PRESENTATION

POPULATION GROUP(S) PREFERENTIALLY AFFECTED

OCCUPATION GROUP(S) PREFERENTIALLY AFFECTED

SEX

FAMILY HISTORY

HEREDITY

GLOSSARY

PERMUTED TOPIC, SYNONYMS, SUBTOPICS

RELATED TOPICS

DIFFERENTIAL DIAGNOSIS

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