Clinical genetic studies in benign childhood epilepsy with centrotemporal spikes.

PURPOSE: To accurately determine the frequency and nature of the family history of seizures in patients with benign childhood epilepsy with centrotemporal spikes (BECTS). METHOD: Participants with BECTS were recruited from the electroencephalography (EEG) laboratories of three pediatric centers and by referral. Pedigrees were constructed for up to three degrees of relatedness for each proband. All available affected and unaffected individuals underwent phenotyping using a validated seizure questionnaire. The proportion of affected relatives according to degree of relatedness was calculated and phenotypic patterns were analyzed. KEY FINDINGS: Fifty-three probands with BECTS had a mean age of seizure onset at 7.8 years (range 2-12 years). Thirty-four (64%) of 53 patients were male. For 51 participants, pedigrees were available for three degrees of relatedness. Fifty-seven (2.7%) of 2,085 relatives had a history of seizures: Twenty-one (9.8%) of 214 first-degree, 15 (3%) of 494 second-degree, and 21 (1.5%) of 1,377 third-degree relatives. Febrile seizures were the most frequent phenotype, occurring in 26 of 57 affected relatives. There were 34 relatives with epilepsy: 6.5% (14 of 214) first-degree, 1.8% (9 of 494) second-degree, and 0.8% (11 of 1,377) third-degree relatives. Of 21 affected first-degree relatives: 8 of 21 had febrile seizures (FS), 4 had BECTS, 2 had epilepsy-aphasia spectrum disorder, one had temporal lobe epilepsy with hippocampal sclerosis, 2 had focal epilepsy of unknown cause, 2 had genetic generalized epilepsies, and 3 had miscellaneous. SIGNIFICANCE: The frequency of epilepsies in relatives and the heterogeneous syndromes observed suggest that BECTS has a genetic component consistent with complex inheritance. Focal epilepsies are the most common seizure disorder observed in relatives, especially BECTS and epilepsy-aphasia spectrum disorder. Additional acquired or environmental factors are likely to be necessary for expression of the seizure disorder.

Focal epileptiform spikes do not show a canonical BOLD response in patients with benign rolandic epilepsy (BECTS).

Simultaneous EEG and functional MRI (EEG-fMRI) studies of focal epileptiform spikes commonly use the canonical haemodynamic response function (HRF) to model the blood-oxygenation-level-dependent (BOLD) response to these events. Support for the use of the canonical HRF has come from large studies that contain mixed cohorts of epilepsy syndromes and discharge types, and has demonstrated plausible epileptic localisation results in the majority of patients. Other studies, however, have reported that some patients show a BOLD response that differs markedly from a canonical HRF. Our aim in this study was to see if the BOLD response is well modelled by a canonical HRF in a homogeneous cohort of patients with benign epilepsy with centrotemporal spikes (BECTS), an idiopathic partial epilepsy with stereotypical centrotemporal spikes on the EEG. We studied eight well-characterised and typical BECTS patients and found that the shape of the average BOLD response was different to the canonical HRF. Furthermore, a localisation analysis using the group-average response provided increased sensitivity and specificity compared to the canonical HRF. Our findings suggest that the canonical HRF may not provide the best model for the BOLD response in some epilepsy syndromes or spike-types. In studies of homogeneous patient groups, therefore, localisation results may be improved by using a group-specific BOLD response.

fMRI assessment of language lateralization: an objective approach.

Language lateralization based on functional magnetic resonance imaging (fMRI) is often used in clinical neurological settings. Currently, interpretation of the distribution, pattern and extent of language activation can be heavily dependent on the chosen statistical threshold. The aim of the present study was to 1) test the robustness of adaptive thresholding of fMRI data to yield a fixed number of active voxels, and to 2) develop a largely threshold-independent method of assessing when individual patients have statistically atypical language lateralization. Simulated data and real fMRI data in 34 healthy controls and 4 selected epilepsy patients performing a verbal fluency language fMRI task were used. Dependence of laterality on the thresholding method is demonstrated for simulated and real data. Simulated data were used to test the hypothesis that thresholding based upon a fixed number of active voxels would yield a laterality index that was more stable across a range of signal strengths (study power) compared to thresholding at a fixed p value. This stability allowed development of a method comparing an individual to a group of controls across a wide range of thresholds, providing a robust indication of atypical lateralization that is more objective than conventional methods. Thirty healthy controls were used as normative data for the threshold-independent method, and the remaining subjects were used as illustrative examples. The method could also be used more generally to assess relative regional distribution of activity in other neuroimaging paradigms (for example, one could apply it to the assessment of lateralization of activation in a memory task, or to the assessment of anterior-posterior distribution rather than laterality).

Neuropsychological and functional MRI studies provide converging evidence of anterior language dysfunction in BECTS.

PURPOSE: Benign childhood epilepsy with centrotemporal spikes (BECTS) is the most common epilepsy syndrome of childhood and can be associated with language difficulties. The exact profile of these difficulties and their neurofunctional underpinnings, however, are not yet clear. METHODS: To further understand the impact of the BECTS syndrome on language, we assessed language performance using standard neuropsychological measures, and patterns of language lateralization using functional magnetic resonance imaging (fMRI) in children with typical BECTS (n = 20) and healthy controls (n = 20). RESULTS: The fMRI analyses revealed that language-related activation was less lateralized to the left hemisphere in anterior brain regions in the patients relative to the control group. This finding was consistent with decreased performance in the BECTS group compared to the control group on the neuropsychological measure most dependent on the integrity of anterior aspects of the language axis, namely, sentence production. DISCUSSION: The converging lines of evidence from the neuropsychological and activation methodologies support the view that BECTS is associated with language difficulties that are regional, and anterior, in nature.

Differential contributions of the hippocampus and rhinal cortices to verbal memory in epilepsy.

The present study explored the left mesial temporal lobe correlates of verbal memory in patients with temporal lobe epilepsy (TLE). An index of structural integrity, T2 relaxation time, was measured bilaterally in three mesial temporal regions of interest, and correlated with measures of verbal memory. The acquisition of verbal arbitrary relational material was most strongly associated with left perirhinal T2 signal. In contrast, verbal memory consolidation was related to T2 signal in the left hippocampus. Our findings suggest a key role for the left perirhinal region in the uptake of arbitrary linkages that underlie new learning. The hippocampus, on the other hand, is important for protecting newly learned information from the effects of interference. This double dissociation provides a neurocognitive account of the left mesial temporal memory syndrome.