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Your search keyword '"Staba, Richard"' showing total 6 results
Start Over Author "Staba, Richard" Journal annals of neurology
6 results on '"Staba, Richard"'

1. Low-voltage fast seizures in humans begin with increased interneuron firing.

Author

Elahian, Bahareh, Lado, Nathan E, Mankin, Emily, Vangala, Sitaram, Misra, Amrit, Moxon, Karen, Fried, Itzhak, Sharan, Ashwini, Yeasin, Mohammed, Staba, Richard, Bragin, Anatol, Avoli, Massimo, Sperling, Michael R, Engel, Jerome, and Weiss, Shennan A

Subjects
Gyrus Cinguli, Temporal Lobe, Interneurons, Humans, Seizures, Electroencephalography, Retrospective Studies, Electrodes, Implanted, Action Potentials, Adult, Middle Aged, Female, Male, Young Adult, Neurodegenerative, Neurosciences, Brain Disorders, Epilepsy, Neurological, Clinical Sciences, Neurology & Neurosurgery
Abstract

ObjectiveIntracellular recordings from cells in entorhinal cortex tissue slices show that low-voltage fast (LVF) onset seizures are generated by inhibitory events. Here, we determined whether increased firing of interneurons occurs at the onset of spontaneous mesial-temporal LVF seizures recorded in patients.MethodsThe seizure onset zone (SOZ) was identified using visual inspection of the intracranial electroencephalogram. We used wavelet clustering and temporal autocorrelations to characterize changes in single-unit activity during the onset of LVF seizures recorded from microelectrodes in mesial-temporal structures. Action potentials generated by principal neurons and interneurons (ie, putative excitatory and inhibitory neurons) were distinguished using waveform morphology and K-means clustering.ResultsFrom a total of 200 implanted microelectrodes in 9 patients during 13 seizures, we isolated 202 single units; 140 (69.3%) of these units were located in the SOZ, and 40 (28.57%) of them were classified as inhibitory. The waveforms of both excitatory and inhibitory units remained stable during the LVF epoch (p > > 0.05). In the mesial-temporal SOZ, inhibitory interneurons increased their firing rate during LVF seizure onset (p

Published
2018

2. Getting the best outcomes from epilepsy surgery.

Author

Vakharia, Vejay N, Duncan, John S, Witt, Juri-Alexander, Elger, Christian E, Staba, Richard, and Engel, Jerome

Subjects
Humans, Epilepsy, Treatment Outcome, Neurosurgical Procedures, Clinical Sciences, Neurosciences, Neurology & Neurosurgery
Abstract

Neurosurgery is an underutilized treatment that can potentially cure drug-refractory epilepsy. Careful, multidisciplinary presurgical evaluation is vital for selecting patients and to ensure optimal outcomes. Advances in neuroimaging have improved diagnosis and guided surgical intervention. Invasive electroencephalography allows the evaluation of complex patients who would otherwise not be candidates for neurosurgery. We review the current state of the assessment and selection of patients and consider established and novel surgical procedures and associated outcome data. We aim to dispel myths that may inhibit physicians from referring and patients from considering neurosurgical intervention for drug-refractory focal epilepsies. Ann Neurol 2018;83:676-690.

Published
2018

3. Three-dimensional surface maps link local atrophy and fast ripples in human epileptic hippocampus

Author

Ogren, Jennifer A., primary, Wilson, Charles L., additional, Bragin, Anatol, additional, Lin, Jack J., additional, Salamon, Noriko, additional, Dutton, Rebecca A., additional, Luders, Eileen, additional, Fields, Tony A., additional, Fried, Itzhak, additional, Toga, Arthur W., additional, Thompson, Paul M., additional, Engel, Jerome, additional, and Staba, Richard J., additional

Published
2009
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6. Interictal high-frequency oscillations (80-500 Hz) in the human epileptic brain: entorhinal cortex.

Author

Bragin A, Wilson CL, Staba RJ, Reddick M, Fried I, and Engel J Jr

Subjects
Electrodes, Implanted, Epilepsy, Temporal Lobe diagnosis, Humans, Electroencephalography methods, Entorhinal Cortex physiopathology, Epilepsy, Temporal Lobe physiopathology, Periodicity
Abstract

Unique high-frequency oscillations of 250 to 500 Hz, termed fast ripples, have been identified in seizure-generating limbic areas in rats made epileptic by intrahippocampal injection of kainic acid, and in patients with mesial temporal lobe epilepsy. In the rat, fast ripples clearly are generated by a different neuronal population than normally occurring endogenous ripple oscillations (100-200 Hz), but this distinction has not been previously evaluated in humans. The characteristics of oscillations in the ripple and fast ripple frequency bands were compared in the entorhinal cortex of patients with mesial temporal lobe epilepsy using local field potential and unit recordings from chronically implanted bundles of eight microelectrodes with tips spaced 500 microm apart. The results showed that ripple oscillations possessed different voltage versus depth profiles compared with fast ripple oscillations. Fast ripple oscillations usually demonstrated a reversal of polarity in the middle layers of entorhinal cortex, whereas ripple oscillations rarely showed reversals across entorhinal cortex layers. There was no significant difference in the amplitude distributions of ripple and fast ripple oscillations. Furthermore, multiunit synchronization was significantly increased during fast ripple oscillations compared with ripple oscillations (p < 0.001). These data recorded from the mesial temporal lobe of epileptic patients suggest that the cellular networks underlying fast ripple generation are more localized than those involved in the generation of normally occurring ripple oscillations. Results from this study are consistent with previous studies in the intrahippocampal kainic acid rat model of chronic epilepsy that provide evidence supporting the view that fast ripples in the human brain reflect localized pathological events related to epileptogenesis.

Published
2002
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