Lateralizing value of interictal spikes on overnight sleep-EEG studies in temporal lobe epilepsy

PURPOSE: To determine the lateralizing value of interictal epileptiform discharges (IEDs) recorded during overnight sleep-EEG studies in temporal lobe epilepsy. Because IEDs are more prevalent in non-rapid eye movement (NREM) sleep than in wakefulness, overnight sleep-EEG recordings may contribute additional lateralizing information to the epilepsy surgery evaluation beyond daytime EEGs. METHODS: Twenty-four subjects with medically refractory temporal lobe epilepsy underwent continuous overnight sleep-EEG recordings. Subjects were seizure free > or =24 h before study and receiving stable doses of medication. The IED foci recorded on overnight studies were compared with daytime EEGs, interictal samples, and ictal recordings during long-term monitoring, brain magnetic resonance images (MRIs), and surgical outcome. RESULTS: (a) In all 24 subjects, including 13 without IEDs on daytime EEGs, temporal IEDs were present during NREM sleep and were exclusively or predominantly (>95%) unilateral in 15 and bitemporal in nine. (b) Unilateral NREM IEDs were concordant with surface or depth ictal-onset regions in 14 subjects, even if MRIs were normal (three subjects) or surface ictal-onset regions were bilateral (five subjects). Eleven of 12 subjects with unilateral concordant NREM IEDs who have undergone surgery are seizure free. (c) Bitemporal IEDs were associated with postoperative seizures in all subjects with normal MRIs or widespread MRI abnormalities. However, all subjects with bitemporal IEDs and MRI hippocampal abnormalities concordant with ictal-onset regions had good to excellent surgical outcomes. CONCLUSIONS: When combined with other investigations, IEDs recorded on overnight studies add prognostic data to the epilepsy surgery evaluation not provided by daytime EEGs.     

Interictal sleep recordings during presurgical evaluation: Bidirectional perspectives on sleep related network functioning

Sleep recordings are an integral part of presurgical evaluation in drug-resistant focal epilepsy. Physiological network functioning is substantially different between wakefulness and sleep and thus may add further complexity to the task of determining the epileptogenic zone (EZ). A thorough understanding of changes in epileptic networks in relation to sleep is therefore essential in order to fully appreciate the added value of sleep recordings. Furthermore, shared expertise in epilepsy and sleep is beneficial for both domains, as intracerebral EEG during presurgical evaluation offers a unique window into physiological networks and their interaction during sleep. This review intends to delineate the way in which sleep modifies interictal epileptic discharges (IEDs), and to summarize which sleep state is the most appropriate for aiding in discerning the EZ. Two approaches will be reviewed. First, classical scalp electroencephalography (EEG) recordings help to localize the EZ, especially during rapid-eye-movement (REM) sleep. REM sleep tends to narrow the field size of IEDs, and thus helps to target the core of the EZ. Second, automated analysis of intracerebral recordings can make use of both IEDs and sleep-related oscillations in combination. Notably, high frequency oscillations and directed connectivity measures can be assessed in a single sleep cycle and are valuable tools to probe epileptogenicity. In this approach, which exploits increased network interactions during sleep, non-REM-sleep is the most suitable sleep stage to extract multiple features of local and distributed neuronal activity in order to predict the EZ. The added value of intracerebral recordings is perfectly bidirectional. From a sleep perspective, invasive EEG recordings are a unique opportunity to unravel local sleep-related network function of superficial and deeply situated brain structures. Intracerebral EEG has thus allowed the dissection of sleep features and oscillations and their anatomical sources. A multicenter effort led by the Montreal Neurological Institute resulted in a detailed open-access atlas on normative EEG activity during sleep (https://mni-open-ieegatlas.research.mcgill.ca/). It contributed to our understanding that the human brain does not sleep uniformly but that specifically deep structures have distinct signatures that are discernable from the rest of the brain. Also, this research direction allowed us to gain insights into our understanding of the important neurocognitive functions of sleep. Finally, this review provides a clinical outlook on the benefit of genuine sleep recordings, i.e. recordings with additional sleep sensors, concomitant to presurgical evaluation, in order to fully discern common sleep disorders as a frequent comorbidity of epilepsy. In conclusion, shared expertise in sleep and epilepsy is of mutual added value for improving the management of patients with epilepsy.     

Interictal Spiking Increases with Sleep Depth in Temporal Lobe Epilepsy

Summary: Purpose : To test the hypothesis that deepening sleep activates focal interictal epileptiform discharges (IEDs), we performed EEG-polysomnography in 21 subjects with medically refractory temporal lobe epilepsy.
Methods: At the time of study, subjects were seizure-free for 224 h and were taking stable doses of antiepileptic medications (AEDs). Sleep depth was measured by log delta power (LDP). Visual sleep scoring and visual detection of IEDs also were performed. Logistic-regression analyses of IED occurrence in relation to LDP were carried out for two groups of subjects, nine with frequent IEDs (group 1) and 12 with rare IEDs (group 2).
Results: The LDP differentiated visually scored non-rapid eye movement (NREM) sleep stages (p = 0.0001). The IEDs were most frequent in NREM stages 3/4 and least frequent in REM sleep. Within NREM sleep, in both groups, IEDs were more frequent at higher levels of LDP (p < 0.05). In group 1, after accounting for the level of LDP, IEDs were more frequent (a) on the ascending limb of LDP and with more rapid increases in LDP (p = 0.007), (b) in NREM than in REM sleep (p = 0.002), and (c) closer to sleep onset (p < 0.0001). Fewer than 1% of IEDs occurred within 10 s of an EEG arousal.
Conclusions: Processes underlying the deepening of NREM sleep, including progressive hyperpolarization in thalamocortical projection neurons, may contribute to IED activation in partial epilepsy. Time from sleep onset and NREM versus REM sleep also influence IED occurrence.     

Seizure outcome after anterior temporal lobectomy and its predictors in patients with apparent temporal lobe epilepsy and normal MRI

PURPOSE: Very little reliable information is available regarding the role of anterior temporal lobectomy (ATL), optimal presurgical evaluation strategy, post-ATL seizure outcome, and the factors that predict the outcome in patients with medically refractory temporal lobe epilepsy (TLE) and normal high-resolution magnetic resonance imaging (MRI). To be cost-effective, epilepsy surgery centers in developing countries will have to select candidates for epilepsy surgery by using the locally available technology and expertise. METHODS: We reviewed the electroclinical and pathological characteristics and seizure outcome of 17 patients who underwent ATL for medically refractory TLE after being selected for ATL based on a noninvasive selection protocol without the aid of positron emission tomography (PET) or single-photon emission computed tomography (SPECT), despite a normal preoperative high-resolution MRI. RESULTS: Seven (41%) patients achieved an excellent seizure outcome; five of them were totally seizure free. An additional five (29%) patients had >75% reduction in seizure frequency. The following pre-ATL factors predicted an excellent outcome: antecedent history of febrile seizures, strictly unilateral anterior temporal interictal epileptiform discharges (IEDs), and concordant type 1 ictal EEG pattern. All the five patients with pathologically verified hippocampal formation neuronal loss were seizure free. The presence of posterior temporal, bilateral temporal, and generalized IEDs portended unfavorable post-ATL seizure outcome. CONCLUSIONS: A subgroup of patients destined to have an excellent post-ATL outcome can be selected from MRI-negative TLE patients by using history and scalp-recorded interictal and ictal EEG data. The attributes of these patients are antecedent history of febrile seizures, strictly unilateral anterior IEDs, and concordant type 1 ictal EEG pattern.     

Mechanisms of seizure suppression during rapid-eye-movement (REM) sleep in cats

REM sleep is the most antiepileptic state in the sleep-wake cycle for human generalized epilepsy, yet the neural mechanism is unknown. This study verified the antiepileptic properties of REM sleep in feline generalized epilepsy and also isolated the responsible factors. Conclusions are based on 20 cats evaluated for generalized EEG and motor seizure susceptibility before and after dissociation of specific REM sleep components. Bilateral electrolytic lesions of the medial-lateral pontine tegmentum created a syndrome of REM sleep without atonia. Systemic atropine created a syndrome of REM sleep without thalamocortical EEG desynchronization. Identical results were obtained in two seizure models, systemic penicillin epilepsy and electroconvulsive shock. (1) Normal REM sleep retarded the spread of EEG seizure discharges and had even more potent anticonvulsant effects. (2) Selective loss of 'sleep paralysis' (skeletal muscle atonia) during REM abolished REM sleep protection against myoclonus and convulsions without affecting generalized EEG paroxysms. (3) Conversely, selective loss of thalamocortical EEG desychronization abolished REM sleep protection against generalized EEG seizures without affecting clinical motor accompaniment. These results suggest that the descending brainstem pathways which mediate lower motor neuron inhibition also protect against generalized motor seizures during REM sleep. Protection against spread of EEG paroxysms is governed by a separate mechanism, presumably the ascending brainstem pathways mediating intense thalamocortical EEG desynchronization during REM sleep.     

Predictive Value of Interictal Epileptiform Discharges During Non-REM Sleep on Scalp EEG Recordings for the Lateralization of Epileptogenesis

Summary: Purpose: EEG recording during sleep is widely used in the assessment of epilepsy, particularly in candidates for surgery, yet the diagnostic value of this procedure is not well established. We evaluated the predictive reliability of interictal epileptiform discharges (IEDs) for localization in pre-surgical patients with temporal lobe epilepsy (TLE) during non-REM sleep.
Methods: Preoperative scalp EEG recordings with waking and sleep states were assessed in 83 patients with TLE in whom localization of the epileptogenic zone was subsequently confirmed by successful surgical treatment (patient seizure-free >1 year).
Results: The accuracy of EEG recordings for prediction of lateralization significantly changed from 51.8% during waking to 78.3% during sleep. After exclusion of patients who showed no discharges, the predictive value changed from 74.1 to 86.7%. However, in patients in whom the waking scalp EEG lateralized incorrectly, no improvement in reliability was achieved by sleep recording.
Conclusions: Our results suggest that IEDs occurring in non-REM sleep provide more accurate information for lateralization of epileptogenesis than do those occurring during waking. This gain of diagnostic information was obtained in patients who showed either bilateral or no discharges in waking records, because unilateral discharges arising de novo in sleep were always correctly lateralizing. On the other hand, in patients who showed unilateral discharges in the awake state, whether ipsilateral or contralateral to the epileptogenic zone, the findings were generally unchanged during sleep.     

Predictive value of early EEG after epilepsy surgery.

To determine whether EEG performed within few months after epilepsy surgery is predictive of seizure outcome, 58 consecutive patients undergoing surgery for presumptive temporal lobe epilepsy (TLE) who had clinical follow-up of at least 2 years and EEG data available both pre- and postoperatively were analyzed. Patients were classified by preoperative brain magnetic resonance imaging into lesional, cryptogenic, and hippocampal sclerosis groups. Seizure outcome was classified according to Engel's outcome scale. Comparison was made between the presence of interictal epileptiform discharges (IEDs) in the postoperative EEG and seizure outcome. Patients who experienced seizures within 2 months after surgery were considered to have early recurrence. The mean follow-up period was 3 years. Sixty percent of patients achieved a class I seizure outcome. Almost all (95%) postoperative EEGs were obtained within 4 months after surgery. IEDs were present in 26% of postoperative EEGs, but were significantly less frequent in EEGs recorded after the first two postoperative months (P = 0.011). The presence of IEDs on postoperative EEGs was not predictive of seizure outcome either in the whole cohort or in any of the subgroups, regardless of whether it was performed within or after the first two postoperative months. It was also not predictive of outcome in the 44 patients (76%) who did not suffer early recurrence. The authors conclude that EEG performed a few months after epilepsy surgery is not useful as a predictor of long-term seizure outcome.     

Hyperorality in epileptic seizures: periictal incomplete Klüver-Bucy syndrome

PURPOSE: To analyze systematically hyperorality associated with epileptic seizures and its relation to the localization of epileptic activity. METHODS: To identify patients with periictal hyperorality, we reviewed video-recordings of 269 patients (aged 6-59 years) who had consecutively undergone presurgical evaluations including ictal video-EEG recordings and high-resolution magnetic resonance imaging (MRI) and had had epilepsy surgery because of intractable frontal (FLE) or temporal lobe epilepsy (TLE). Periictal hyperorality was defined if patients put or unambiguously intended to put nonfood items into their mouths during or after at least one of the reviewed seizures. For the further analysis, we included only patients with periictal hyperorality. We reviewed their medical records and reexamined their ictal video-EEG recordings. RESULTS: We identified eight patients (six women) aged 8-59 years who had hyperorality during or after seizures. Seven patients had TLE, and one patient had frontal lobe epilepsy (FLE). Three of these patients underwent right-sided surgery, whereas five patients had surgery on the left. Three patients exhibited ictal and five showed postictal hyperorality. Interictal EEG suggested bilateral interictal epileptiform discharges (IEDs) in three patients; in two other patients, no IEDs were detected. Ictal EEG suggested bilateral involvement in six cases. Patients with unilateral epileptiform activity had left TLE. CONCLUSIONS: Periictal hyperorality is a rare phenomenon occurring in 3% of the investigated epilepsy population. We suggest that periictal hyperorality is an ictal-postictal mental disturbance, an incomplete Klüver-Bucy syndrome. In most patients, bilateral seizure activity plays an important role in the pathomechanism, but it would appear that left-sided epileptic activity without contralateral involvement also can cause periictal hyperorality.     

Spontaneous sleep epilepsy in amygdala-kindled kittens: a preliminary report

We describe a model of 'sleep epilepsy' after amygdala kindling in kittens. Seizure activity was evaluated at different times in the sleep-wake cycle. Susceptibility was documented by thresholds for evoked convulsions in kittens without spontaneous seizures (n = 5) and by polygraphic or split-screen video recordings in kittens with spontaneous seizures (n = 6). There were 3 main findings: (1) subconvulsive seizures occurred randomly in waking and slow-wave-sleep (SWS); (2) convulsive seizure activity peaked during SWS, especially during the transition from SWS into rapid-eye-movement (REM) sleep; (3) generalized seizure activity was suppressed during stable REM sleep. Seizure patterns thus resemble clinical data designating convulsive temporal lobe epilepsy (TLE) the prototypic pure sleep epilepsy, whereas complex-partial TLE can occur at any time. Prominent secondary TLE generalization during the REM transition suggested involvement of brainstem regions which generate REM onset and innervate the temporal lobe. Adrenergic cells of the locus ceruleus discharge at progressively reduced rates during the transition into REM. Decreased norepinephrine release at this time might disinhibit epileptic neurons in the kindled focus, thus encouraging seizure propagation during the REM transition.     

Frequency of bitemporal independent interictal epileptiform discharges in temporal lobe epilepsy

PURPOSE: Bitemporal interictal epileptiform discharges (IEDs) occur in < or =42% of scalp EEGs in patients with temporal lobe epilepsy (TLE) studied with routine EEGs or partial analysis of long-term recordings. METHODS: Twenty-eight patients with TLE demonstrating exclusively unilateral temporal IEDs on routine EEGs underwent 24-h continuous recording. The entire record was visually inspected for epileptiform discharges. We used continuous EEG to assess the significance of long-term recording in detecting bilateral IEDs. RESULTS: Twenty-two patients had left temporal IEDs; 21 had right temporal IEDs. Seventeen (61%) patients had IEDs originating from both the right and left temporal lobes. The probability of detecting bilateral independent IEDs was correlated with the duration of continuous EEG recording. There was no correlation between the number of IEDs originating from one side and the probability of detecting independent IEDs on the other side. The frequencies of IEDs were not correlated with the length of time since onset of epilepsy. CONCLUSIONS: The findings suggest that when long-term recordings are performed, the incidence of bilateral discharges in TLE is higher than previously reported in the literature and supports the view that TLE is commonly a bilateral disease.     

Primarily generalized seizures are more effective than partial seizures in arousing patients from sleep

The purpose of this study was to determine the characteristics of generalized and partial seizures which awaken patients from sleep, using a retrospective review of intracranial EEG recordings in 8017 electrographic and 7571 clinical seizures in 172 patients undergoing evaluation for epilepsy brain surgery. Seizure onset during sleep followed by awakening occurred in 99% of 308 seizures in 22 patients during daytime naps. Four events consisted of spontaneous awakening followed by the seizure. In contrast electrographic seizures almost never awakened the patient if they were partial in onset (0.02% temporal, 0% frontal), but did so 26% of the time if they were generalized (p < 0.001). Conversely, generalized clinical seizures awakened the patient only 0.3% of the time (p < 0.001) versus 3% for temporal and 6% for frontal lobe. Partial and generalized seizures differ during sleep. Partial seizures do not awaken until they propagate outside the lobe and evolve into a clinical seizure. Generalized seizures when only electrographic, include wake-regulating structures at their onset (presumably thalamus, hypothalamus, brainstem). Our results suggest that rather than sleep transitions being a facilitatory cause of seizures, seizures awaken us from sleep via endogenous stimulation of the brain's sleep/wake structures. This pathway information may be relevant to planning epilepsy brain surgery.     

Current trends in electroencephalography

Several recent articles re-emphasize the value of clinical electrophysiology: in localizing epileptogenesis, predicting effectiveness of epilepsy surgery, and disclosing a mechanism of benign Rolandic epilepsy of childhood.A review of the role of EEG in the diagnosis of epilepsy indicated that epileptiform activity will appear in 50% of initial awake recordings of adults with epilepsy and in 85% of subjects undergoing two recordings. This contrasts with the appearance of spikes in only 4 of 1000 normal persons. Several studies focused on the value of electroencephalography in extratemporal epilepsy: 62% of patients with neocortical epilepsy had at least one localizing ictal EEG; occipital and temporal neocortical seizures were localized in a greater proportion than frontal or parietal attacks. Interictal spikes, if unifocal, always arose from the epileptogenic region in a study of their seizure localizing value. Such congruence augured for better seizure control by focal resection in two studies reviewed herein.Studies indicating the value of interictal temporal lobe spikes and scalp-recorded seizures in lateralising a temporal seizure focus are reviewed. One study found EEG to be slightly more reliable for lateralization of temporal epileptogenesis than MRI.In patients with benign Rolandic seizures, enhanced motor evoked potentials (MEPs) were obtained from transcranial magnetic stimulation when this was applied 50-80 msec after electrical stimulation of the thumb whereas this interval inhibited the MEP in normal subjects. This suggests that afferent cutaneous input abnormally and synchronously activates a large population of sensory neurons; such activation is subsequently transmitted to the motor cortex to produce the focal spikes in this condition.Finally, advances in non-invasive technology have redefined and limited the need for invasive monitoring in children with intractable seizure disorders.     

Regional cerebral blood flow in partial complex epilepsy with and without the presence of lesions

Regional cerebral blood flow (r CBF) was measured by the I.V. 133 Xenon method and use of 27 detectors in 91 patients with complex partial epilepsy in interictal periods (at least 48 h over a complex partial seizure). Some were also examined less than 48 h before or after seizures. All were studied with ictal and interictal electroencephalography (EEG), polysomnography, computed tomography (CT), some had nuclear magnetic resonance scans (MR). The blood flow values were compared with a group of a 20 normal subjects matching for age. A significant decrease of r CBF ranged from 15% to 25% was found in the temporal region in three groups of epileptic patients: with repeated normal CT scans and lateralized EEG abnormalities (N = 46); with cortical atrophy in CT scan (N = 12); with neurosurgical focal lesions on CT and or MR scans glioma, arteriovenous malformation) (N = 10). r CBF was normal or decreased by less than 15% in the other regions of the brain. Patients with repeated normal CT scans and bilateral EEG abnormalities either asynchronous or alternatively observed in the right side or left side on waking EEG or during NREM sleep and REM sleep, did not show reduction in r CBF. In a previous study, r CBF distribution was also found normal during interictal phase in patients with primary generalized epilepsy.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sleep-Wakefulness Alterations in Amygdala-Kindled Rats

Summary: Purpose: Our aim was to study the relation between epilepsy and sleep–wakefulness cycles in the amygdalakindling model of temporal lobe epilepsy.
Methods: Adult male Wistar rats were electrically kindled through bipolar electrodes implanted in the anterior amygdala. Polysomnographic recordings were taken before and after kindled seizures for 6 h. For the studies on the effects of a single, full-blown seizure, recordings were taken immediately after the seizure and daily thereafter until the recordings returned to baseline values. For studies on the effects of five full-blown seizures, recordings were taken immediately after the fifth seizure and then on day 1, 2, 3, 5, 7, 14, 21, and 28.
Results: Polysomnographic recordings taken immediately after the first full-blown seizure revealed an initial increase in the duration of deep slow-wave sleep (SII), a decrease in the light slow-wave sleep (SI) stage of non-rapid eye movement (NREM) sleep, and a decrease in the quiet wakefulness (W,) stage of wakefulness. All these parameters returned to baseline values after 24 h. The duration of rapid eye movement (REM) sleep increased and returned to the baseline value after 48 h. Five consecutive full-blown seizures caused an increase in the duration of SII from the day the seizures occurred until day 28, whereas the duration of SI decreased for 72 h. The duration of REM sleep, decreased only on the day of the seizures and day 1, while decreases in the number of REM episodes were observed on the day of the seizure, day 2 and day 14.
Conclusions: Our study indicates that even a single, full-blown seizure can cause alterations in the architecture of sleep–wakefulness cycles for a short duration, and that multiple seizures produce long-term effects.     

Lateralized interictal epileptiform discharges during rapid eye movement sleep correlate with epileptogenic hemisphere in children with intractable epilepsy secondary to tuberous sclerosis complex

Purpose: We assessed lateralization of interictal epileptiform discharges (IEDs) in children with intractable epilepsy secondary to tuberous sclerosis complexes (TSCs) during rapid eye movement sleep (R), compared with non–rapid eye movement sleep (NR) and wakefulness (W), to determine epileptogenicity of R‐IEDs. Methods: We retrospectively studied 23 children with TSC, who underwent prolonged scalp video–electroencephalography (EEG) and magnetic resonance imaging (MRI). We determined the lateralization of ictal EEG, clinical semiology, and the largest tuber on MRI. We analyzed a minimum of 100 IEDs during R, NR, and W to classify right/left/generalized spikes to compare the lateralization with ictal EEG, clinical semiology, and MRI. Key Findings: R‐IEDs were lateralized in 22 patients (96%), W‐IEDs in 19 (83%), and NR‐IEDs in 16 (70%). Ictal EEGs were lateralized in 15 patients (65%) and clinical semiology in 5 (22%). Ictal EEG lateralization was concordant to R‐IEDs in 14 patients (93%), W‐IEDs in 11 (73%), and NR‐IEDs in 10 (67%). The lateralization of clinical semiology was concordant with R‐IEDs in 4 (80%), W‐IEDs in 3 (60%), and NR‐IEDs in 2 (40%). MRI lateralization of the largest tuber was concordant with R‐IEDs in 16 (70%), W‐IEDs in 12 (52%), and NR‐IEDs in 11 (48%). Thirteen patients (57%) underwent resective surgery, the hemisphere of which was concordant with R‐IEDs in 13 (100%), W‐IEDs in 8 (62%), and NR‐IEDs in 8 (62%). Nine (69%) of them achieved good seizure control after surgery. Significance: R provoked the most lateralized IEDs compared to NR and W in children with TSC. Lateralization of R‐IEDs corresponded with the hemisphere of ictal EEG and largest tuber, and can be used to identify surgical candidacy in TSC children with intractable epilepsy.     

Focal features in patients with idiopathic generalized epilepsy

Purpose: The stringent dichotomy between focal and generalized epilepsies has become a contentious issue, since neuropathological studies as well as structural and functional imaging data hypothesized the existence of focal brain abnormalities in patients with well-documented idiopathic generalized epilepsy. The aim of our study was to investigate whether clinical and EEG features generally considered typical for a focal seizure disorder also occur in patients with generalized epilepsies to further support the hypothesis of a more continuous transition between focal and generalized epilepsies in contrast to the present concept of a stringent pathophysiologic dichotomy. Methods: We retrospectively studied 20 consecutive patients with idiopathic generalized epilepsy who underwent video EEG monitoring either because of uncertainty of their epilepsy syndrome or because of a difficult to treat epilepsy. We determined the incidence of (a) focal interictal epileptiform discharges (IEDs), (b) intermittent temporal slow waves, and (c) clinical signs that are widely accepted as typical for a focal seizure onset, i.e. version, tonic/dystonic unilateral posturing, postictal hemiparesis, postictal nose wiping and figure of 4. Results: Focal IEDs occurred in seven patients (35.0%), intermittent temporal slow waves in six (30%), and clinical signs pointing towards a focal seizure onset were found in seven patients (35%). Conclusion: Our study of EEG and clinical data supports the more sophisticated previous investigations in which structural and functional imaging as well as histopathological data suggested the presence of focal brain abnormalities in patients with ‘generalized’ epilepsies. Furthermore we emphasize the cautious use of isolated focal EEG abnormalities and certain clinical signs to prevent a premature diagnosis of focal epilepsy in patients who may indeed suffer from a generalized seizure disorder.     

Activation patterns of interictal epileptiform discharges in relation to sleep and seizures: An artificial intelligence driven data analysis

ObjectiveTo quantify effects of sleep and seizures on the rate of interictal epileptiform discharges (IED) and to classify patients with epilepsy based on IED activation patterns.MethodsWe analyzed long-term EEGs from 76 patients with at least one recorded epileptic seizure during monitoring. IEDs were detected with an AI-based algorithm and validated by visual inspection. We then used unsupervised clustering to characterize patient sub-cohorts with similar IED activation patterns regarding circadian rhythms, deep sleep activation, and seizure occurrence.ResultsFive sub-cohorts with similar IED activation patterns were found: “Sporadic” (14%, n = 10) without or few IEDs, “Continuous” (32%, n = 23) with weak circadian/deep sleep or seizure modulation, “Nighttime & seizure activation” (23%, n = 17) with high IED rates during normal sleep times and after seizures but without deep sleep modulation, “Deep sleep” (19%, n = 14) with strong IED modulation during deep sleep, and “Seizure deactivation” (12%, n = 9) with deactivation of IEDs after seizures. Patients showing “Deep sleep” IED pattern were diagnosed with temporal lobe epilepsy in 86%, while 80% of the “Sporadic” cluster were extratemporal.ConclusionsPatients with epilepsy can be characterized by using temporal relationships between rates of IEDs, circadian rhythms, deep sleep and seizures.SignificanceThis work presents the first approach to data-driven classification of epilepsy patients based on their fully validated temporal pattern of IEDs.     

Spatiotemporal relationship between seizure activity and interictal spikes in temporal lobe epilepsy.

PURPOSE: To analyze the spatio-temporal relationship between seizure propagation and interictal epileptiform discharges (IEDs) in patients with bitemporal epilepsy. METHODS: We investigated 18 adult patients with intractable temporal lobe epilepsy (TLE) who had undergone continuous video-EEG monitoring during presurgical evaluation. Only those patients were selected who had independent IEDs over both temporal lobes. Two authors evaluated the ictal and interictal EEG data independently. RESULTS: We analyzed 52 lateralized seizures of 18 patients. Thirty-one seizures showed ipsilateral seizure spread exclusively, whereas in 21 seizures the contralateral hemisphere was also involved. In lateralized seizures without contralateral propagation, we found that spikes ipsilateral to the seizure onset occurred postictally in a greater ratio than preictally (P<0.001). In lateralized seizures with contralateral propagation, we found no significant changes in the postictal spike distribution. CONCLUSIONS: Our findings showed that the lateralization of IEDs may depend on the brain areas involved by the preceding seizures, suggesting that spikes can be influenced by the seizure activity, and are not independent signs of epileptogenicity.     

Interictal EEG spikes identify the region of electrographic seizure onset in some,but not all,pediatric epilepsy patients

Purpose : The role of sharps and spikes, interictal epileptiform discharges (IEDs), in guiding epilepsy surgery in children remains controversial, particularly with intracranial electroencephalography (IEEG). Although ictal recording is the mainstay of localizing epileptic networks for surgical resection, current practice dictates removing regions generating frequent IEDs if they are near the ictal onset zone. Indeed, past studies suggest an inconsistent relationship between IED and seizure‐onset location, although these studies were based upon relatively short EEG epochs. Methods : We employ a previously validated, computerized spike detector to measure and localize IED activity over prolonged, representative segments of IEEG recorded from 19 children with intractable, mostly extratemporal lobe epilepsy. Approximately 8 h of IEEG, randomly selected 30‐min segments of continuous interictal IEEG per patient, were analyzed over all intracranial electrode contacts. Results : When spike frequency was averaged over the 16‐time segments, electrodes with the highest mean spike frequency were found to be within the seizure‐onset region in 11 of 19 patients. There was significant variability between individual 30‐min segments in these patients, indicating that large statistical samples of interictal activity were required for improved localization. Low‐voltage fast EEG at seizure onset was the only clinical factor predicting IED localization to the seizure‐onset region. Conclusions : Our data suggest that automated IED detection over multiple representative samples of IEEG may be of utility in planning epilepsy surgery for children with intractable epilepsy. Further research is required to better determine which patients may benefit from this technique a priori.     

REM-sleep related hypermotor seizures: Video documentation and ictal source imaging

IntroductionRapid eye movement (REM) sleep has an inhibitory effect on epileptiform EEG discharges, and seizures occur extremely rarely in REM sleep.Case studyWe present the case and video recordings of a 10-year-old boy, with sleep-related hypermotor seizures starting from REM sleep, identified from videoEEG recordings. The semiology comprised intense fear, tachycardia, tachypnea, followed by hypermotor manifestations. Further investigations included brain MRI and source localization of the EEG signals. Multiple antiepileptic drugs were tried, the patient obtaining a good control of the seizures in the last 2.5 years with eslicarbazepine.Discussion and conclusionThe ictal EEG source imaging showed seizure onset in the anterior part of the right insula, with propagation to the orbitofrontal area, confirmed by the semiological sequence. Although rare, focal seizures can be triggered by REM sleep and our findings suggest that deficient maturation of brain areas involved in sleep modulation might induce insufficient desynchronization during REM sleep, thus allowing seizure emergence.