Spatiotemporal Mapping of Auditory Onsets during Speech Production.

The human auditory cortex is organized according to the timing and spectral characteristics of speech sounds during speech perception. During listening, the posterior superior temporal gyrus is organized according to onset responses, which segment acoustic boundaries in speech, and sustained responses, which further process phonological content. When we speak, the auditory system is actively processing the sound of our own voice to detect and correct speech errors in real time.

Phase coding of spatial representations in the human entorhinal cortex.

The grid-like activity pattern of cells in the mammalian entorhinal cortex provides an internal reference frame for allocentric self-localization. The same neurons maintain robust phase couplings with local field oscillations. We found that neurons of the human entorhinal cortex display consistent spatial and temporal phase locking between spikes and slow gamma band local field potentials (LFPs) during virtual navigation.

A Platform for Cognitive Monitoring of Neurosurgical Patients During Hospitalization.

Intracranial recordings in epilepsy patients are increasingly utilized to gain insight into the electrophysiological mechanisms of human cognition. There are currently several practical limitations to conducting research with these patients, including patient and researcher availability and the cognitive abilities of patients, which limit the amount of task-related data that can be collected. Prior studies have synchronized clinical audio, video, and neural recordings to understand naturalistic behaviors, but these recordings are centered on the patient to understand their seizure semiology and thus do not capture and synchronize audiovisual stimuli experienced by patients.

Effect of Vigilance Changes on the Incidence of High Frequency Oscillations in the Epileptic Brain.

Recent studies show that the rate of cortical high frequency oscillations (HFOs) differentiates epileptogenic tissue in individuals with epilepsy. However, HFO occurrence can vary widely with vigilance state. In this study we attempt to characterize this variation, which has implications for the choice of a suitable diagnostic baseline for spatiotemporal analysis of HFO activity.

Predictors of Postoperative Seizure Recurrence: A Longitudinal Study of Temporal and Extratemporal Resections.

Objective. We investigated the longitudinal outcome of resective epilepsy surgery to identify the predictors of seizure recurrence. Materials and Methods.

Temporal lobe volume predicts Wada memory test performance in patients with mesial temporal sclerosis.

The Wada test is widely used in the presurgical evaluation of potential temporal lobectomy patients to predict postoperative memory function. Expected asymmetry (EA), defined as Wada memory lateralized to the nonsurgical hemisphere, or a higher score after injection of the surgical hemisphere would be considered favorable in terms of postoperative memory outcome. However, in some cases, nonlateralized memory (NM) results, with no appreciable asymmetry, may occur because of impaired scores after both injections, often leading to denial of surgery.

Interictal high-frequency oscillations (HFOs) as predictors of high frequency and conventional seizure onset zones.

We investigated the relationship between the interictal high-frequency oscillations (HFOs) and the seizure onset zones (SOZs) defined by the ictal HFOs or conventional frequency activity (CFA), and evaluated the usefulness of the interictal HFOs as spatial markers of the SOZs. We analysed seizures showing discrete HFOs at onset on intracranial EEGs acquired at ≥1000-Hz sampling rate in a training cohort of 10 patients with temporal and extratemporal epilepsy. We classified each ictal channel as: HFO+ (HFOs at onset with subsequent evolution), HFO- (HFOs at onset without evolution), CFA (1.

In vivo measurements of limbic glutamate and GABA concentrations in epileptic patients during affective and cognitive tasks: A microdialysis study.

Limbic system structures such as the amygdala (AMG) and the hippocampus (HIPP) are involved in affective and cognitive processing. However, because of the limitations in noninvasive technology, absolute concentrations of the neurotransmitters underlying limbic system engagement are not known. Here, we report changes in the concentrations of the neurotransmitters glutamate (Glu) and gamma-aminobutyric acid (GABA) in the HIPP and the AMG of patients with nonlesional temporal lobe epilepsy undergoing surgery for intracranial subdural and depth electrode implantation.

Naive scoring of human sleep based on a hidden Markov model of the electroencephalogram.

Clinical sleep scoring involves tedious visual review of overnight polysomnograms by a human expert. Many attempts have been made to automate the process by training computer algorithms such as support vector machines and hidden Markov models (HMMs) to replicate human scoring. Such supervised classifiers are typically trained on scored data and then validated on scored out-of-sample data.

Effectiveness of multimodality treatment for autoimmune limbic epilepsy.

We evaluated the outcome of multimodality treatment in autoimmune limbic epilepsy in 3 consecutive patients (2 male and 1 female; age 33-55 years) presenting with a combination of focal non-convulsive status epilepticus, memory impairment, and psychosis. MRI showed right or bitemporal T2 or FLAIR hyperintensity. Video-EEG showed seizures of right temporo-occipital or bitemporal independent onset.

High frequency oscillations and infraslow activity in epilepsy.

In pre-surgical evaluation of epilepsy, there has been an increased interest in the study of electroencephalogram (EEG) activity outside the 1-70 Hz band of conventional frequency activity (CFA). Research over the last couple of decades has shown that EEG activity in the 70-600 Hz range, termed high frequency oscillations (HFOs), can be recorded intracranially from all brain regions both interictally and at seizure onset. In patients with epilepsy, HFOs are now considered as pathologic regardless of their frequency band although it may be difficult to distinguish them from the physiologic HFOs, which occur in a similar frequency range.

Seizure localization using broadband EEG: comparison of conventional frequency activity, high-frequency oscillations, and infraslow activity.

In neocortical epilepsy, we showed that the seizure onset defined by ictal high-frequency oscillations (HFO: ≥ 70 Hz) with subsequent evolution into slower frequency activity (i.e., HFOs+) was smaller in spatial distribution than that defined by conventional frequency activity (1-70 Hz), and that resection of HFO+ areas resulted in favorable seizure outcome.

Ictal high-frequency oscillations in neocortical epilepsy: implications for seizure localization and surgical resection.

Purpose: To investigate the characteristics of intracranial ictal high-frequency oscillations (HFOs).

Methods: Among neocortical epilepsy patients who underwent intracranial monitoring and surgery, we studied patients with well-defined, unifocal seizure onsets characterized by discrete HFOs (≥70 Hz). Patients with multifocal or bilateral independent seizure onsets, electroencephalography (EEG) acquired at <1,000 Hz sampling rate, and nonresective surgery were excluded.

Sequential intrarectal diazepam and intravenous levetiracetam in treating acute repetitive and prolonged seizures.

In this retrospective study of institutionalized patients with mental retardation, we present the efficacy and safety of sequential treatment with intrarectal diazepam (IRD) gel (Diastat) and intravenous levetiracetam (IVL) in comparison with either treatment alone for acute repetitive or prolonged seizures (ARPS). We defined ARPS as >or=3 seizures of any type within 1 h or a single seizure of any type lasting >or=3 min. Eighty-eight ARPS episodes were treated in 25 patients (14 female, age 21-72 years), with mainly symptomatic generalized epilepsy.

Seizure onset determination.

Digital electroencephalography has greatly expanded the opportunities for data analysis. Although commercial software packages are available they seem not to be used as widely in the preoperative work-up of epilepsy patients as might be warranted. This review will demonstrate that seizure onset can be better defined by judicious use of post hoc filter settings, expanded electrode coverage, and special electrode montages.

Adjunctive pregabalin therapy in mentally retarded, developmentally delayed patients with epilepsy.

This retrospective study evaluated the efficacy and tolerability of adjunctive pregabalin (PGB) therapy in mentally retarded, developmentally delayed patients. The primary efficacy measure was the change in the median frequency of seizure days per week between the baseline (8 weeks prior to initiating PGB) and treatment (12 weeks of titration and maintenance) periods. Inclusion criteria were: documented epilepsy treated with antiepileptic drug, at least one seizure during the baseline period, and lack of prior exposure to PGB.

Diagnostic yield of sequential routine EEG and extended outpatient video-EEG monitoring.

Objective: To investigate the diagnostic yield of outpatient video-EEG monitoring (OVEM) in patients with suspected but unconfirmed epilepsy.

Methods: OVEM data, comprised of 20-min video-EEG (REEG) followed by 4h of video-EEG monitoring (EXM), from 179 consecutive patients were retrospectively analyzed. Three diagnostic categories were defined: localization-related epilepsy (LRE), generalized epilepsy (GE), and nonepileptic seizures (NES).

Intracarotid amobarbital procedure in post-temporal lobectomy patients.

We describe two patients who underwent intracarotid amobarbital procedure (IAP) postoperatively following temporal lobectomy (one right temporal and one left temporal lobectomy), prompted by consideration of reoperation for persistent, intractable seizures. IAP memory score, consisting of the percentage of correctly recognized dually encoded stimuli, was calculated for each hemisphere. Both patients performed well on the IAP baseline memory assessment prior to injections, and both were left hemisphere dominant for language.

Epilepsy and the impact of an epileptology clinic for patients with mental retardation and associated disabilities in an institutional setting.

Purpose: Epilepsy is a common problem in institutionalized patients with multiple handicaps. Limited data exist on the characteristics of epilepsy in this patient population and the impact of systematic evaluation by an epilepsy service.

Methods: We evaluated 138 patients with epilepsy, institutionalized at a facility that cares for 324 patients with multiple handicaps.