ObjectiveTo characterize local field potentials, high frequency oscillations, and single unit firing patterns in microelectrode recordings of human limbic onset seizures.MethodsWide bandwidth local field potential recordings were acquired from microelectrodes implanted in mesial temporal structures during spontaneous seizures from six patients with mesial temporal lobe epilepsy.ResultsIn the seizure onset zone, distinct epileptiform discharges were evident in the local field potential prior to the time of seizure onset in the intracranial EEG. In all three seizures with hypersynchronous (HYP) seizure onset, fast ripples with incrementally increasing power accompanied epileptiform discharges during the transition to the ictal state (p < 0...
Interictal fast oscillations between 100 and 500Hz have been reported in signals recorded from impla...
Currently, clinical electrode arrays with a sparse spatial density (1 cm) are used to map the seizur...
ObjectiveQuantifying the relationship between microelectrode-recorded multi-unit activity (MUA) and ...
previously been recorded in human epileptic brains using depth microelectrodes. We describe, for the...
Intracranial depth electrode EEG records of 478 seizures, recorded in 68 patients undergoing diagnos...
Epileptic seizures result from a variety of pathophysiological processes, evidenced by different ele...
Objective: Intracellular recordings from cells in entorhinal cortex tissue slices show that low-volt...
International audienceBetween seizures the brain of patients with epilepsy generates pathological pa...
Between seizures the brain of patients with epilepsy generates pathological patterns of synchronous ...
Transient high-frequency (100–500 Hz) oscillations of the local field potential have been studied ex...
Low-voltage rapid discharges (or fast EEG ictal activity) constitute a characteristic electrophysiol...
International audienceThe identification of brain regions generating seizures ('epileptogenic zone',...
With the advent of new recording techniques, very fast brain activity (>80Hz) has become a new resea...
The focal and network concepts of epilepsy present different aspects of electroclinical phenomenon o...
High-pass filtering (> 80 Hz) of EEG signals has enabled neuroscientists to analyze high-frequenc...
Interictal fast oscillations between 100 and 500Hz have been reported in signals recorded from impla...
Currently, clinical electrode arrays with a sparse spatial density (1 cm) are used to map the seizur...
ObjectiveQuantifying the relationship between microelectrode-recorded multi-unit activity (MUA) and ...
previously been recorded in human epileptic brains using depth microelectrodes. We describe, for the...
Intracranial depth electrode EEG records of 478 seizures, recorded in 68 patients undergoing diagnos...
Epileptic seizures result from a variety of pathophysiological processes, evidenced by different ele...
Objective: Intracellular recordings from cells in entorhinal cortex tissue slices show that low-volt...
International audienceBetween seizures the brain of patients with epilepsy generates pathological pa...
Between seizures the brain of patients with epilepsy generates pathological patterns of synchronous ...
Transient high-frequency (100–500 Hz) oscillations of the local field potential have been studied ex...
Low-voltage rapid discharges (or fast EEG ictal activity) constitute a characteristic electrophysiol...
International audienceThe identification of brain regions generating seizures ('epileptogenic zone',...
With the advent of new recording techniques, very fast brain activity (>80Hz) has become a new resea...
The focal and network concepts of epilepsy present different aspects of electroclinical phenomenon o...
High-pass filtering (> 80 Hz) of EEG signals has enabled neuroscientists to analyze high-frequenc...
Interictal fast oscillations between 100 and 500Hz have been reported in signals recorded from impla...
Currently, clinical electrode arrays with a sparse spatial density (1 cm) are used to map the seizur...
ObjectiveQuantifying the relationship between microelectrode-recorded multi-unit activity (MUA) and ...