Your search keyword '"Kostopoulos, George"' showing total 10 results

1. Spatiotemporal profiles of focal and generalised spikes in childhood absence epilepsy

Author

Kokkinos, Vasileios, Koupparis, Andreas, Tsiptsios, Dimitrios, Kostopoulos, George, and Koutroumanidis, Michalis

Abstract

The EEG in childhood absence epilepsy (CAE) maycontain focal and generalised spike-wave discharges (SWDs) with focal, mainly frontal, “lead-in”. The term “frontal absence” has been used to imply fast, secondary, 3-Hz generalisation from occult frontal foci with potential impact on clinical EEG interpretation and syndrome classification. The aim of this study was to investigate the relationship between focal and generalised SWDs. We studied five children with CAE and examined a sufficient number of focal (“interictal”) and generalised SWDs in order to obtain reliable analysis. All generalised SWDs with focal lead-in were “decomposed” into their “pre-generalisation” focal and “generalised” constituents, which were studied separately. Two types of focal SWD (“interictal” and “pregeneralisation”) and generalised SWD were visually clustered into groups, waveform-averaged, and plotted in the 2D-electrode space. Spatiotemporal analysis demonstrated a variety (mean: 4.2 per child; SD: 2.12) of mainly frontal and occipital locations for pre-generalisation focal SWDs with propagation along the longitudinal axis in either direction and across homologous sites. Interictal focal SWDs demonstrated similar spatiotemporal characteristics. In contrast, the topography and propagation patterns of the first generalised spike of the SWD showed less variability (mean: 2.5 per child; SD: 2.07), mainly involved the fronto-temporal/temporal areas, and correlated poorly (<10%) with that of the pre-generalisation focal SWD. Our findings suggest that the process of generalised epileptogenesis in genetic epilepsies with electrographic “frontal absences” is far more complex than that proposed by the model for occult frontal focus with fast secondary generalisation.

Published

2013

2. Spatiotemporal profiles of focal and generalised spikes in childhood absence epilepsy

Author

Kokkinos, Vasileios, Koupparis, Andreas M, Tsiptsios, Dimitrios, Kostopoulos, George K, and Koutroumanidis, Michalis

Abstract

The EEG in childhood absence epilepsy (CAE) may contain focal and generalised spike‐wave discharges (SWDs) with focal, mainly frontal, “lead‐in”. The term “frontal absence” has been used to imply fast, secondary, 3‐Hz generalisation from occult frontal foci with potential impact on clinical EEG interpretation and syndrome classification. The aim of this study was to investigate the relationship between focal and generalised SWDs. We studied five children with CAE and examined a sufficient number of focal (“interictal”) and generalised SWDs in order to obtain reliable analysis. All generalised SWDs with focal lead‐in were “decomposed” into their “pre‐generalisation” focal and “generalised” constituents, which were studied separately. Two types of focal SWD (“interictal” and “pregeneralisation”) and generalised SWD were visually clustered into groups, waveform‐averaged, and plotted in the 2D‐electrode space. Spatiotemporal analysis demonstrated a variety (mean: 4.2 per child; SD: 2.12) of mainly frontal and occipital locations for pre‐generalisation focal SWDs with propagation along the longitudinal axis in either direction and across homologous sites. Interictal focal SWDs demonstrated similar spatiotemporal characteristics. In contrast, the topography and propagation patterns of the first generalised spike of the SWD showed less variability (mean: 2.5 per child; SD: 2.07), mainly involved the fronto‐temporal/temporal areas, and correlated poorly (<10%) with that of the pre‐generalisation focal SWD. Our findings suggest that the process of generalised epileptogenesis in genetic epilepsies with electrographic “frontal absences” is far more complex than that proposed by the model for occult frontal focus with fast secondary generalisation. (Published with Supplemental data)

Published

2013

3. Clustering of Early Cortical Responses to Median Nerve Stimulation from Average and Single Trial MEG and EEG Signals

Author

Zainea, Ovidiu F., Kostopoulos, George K., and Ioannides, Andreas A.

Abstract

Median nerve electrical stimulation (MNES) produces early and strong averaged magnetoencephalography (MEG) or electroencephalography (EEG) signals, despite considerable single trial (ST) variability, demonstrated in separate MEG and EEG studies. Here, simultaneous MEG/EEG recordings are used to assess whether same or different aspects of ST variability are influencing EEG and MEG. Clustering techniques provided groupings for the ST timeseries for cortical responses to MNES derived from one modality. These groupings were applied to the corresponding ST timeseries derived from the other modality to quantify the similarity in variability captured by MEG and EEG signals. Estimates of early cortical activity elicited by MNES derived from MEG and EEG signals were very similar, provided ongoing mu rhythm was removed. Similarity between EEG and MEG estimates included both results based on average signals and measures of ST variability. Either MEG or EEG can provide a robust measure of the early cortical activity elicited by MNES as well as of its variability. Reliable indices of early cortical responses to MNES can be derived from either MEG or EEG data. These indices can be based on average signals, as is routinely done with clinical EEG, but it could also rely on hitherto little utilized measures of ST variability.

Published

2005

4. E-government in the Arabian Gulf: a vision toward reality

Author

Kostopoulos, George K.

Abstract

This paper presents a review of e-government initiatives in the Arabian Gulf, where extensive efforts are being made to capitalise on the cyber technologies in order to enhance the government to citizen service. The described cases are from Kuwait, Bahrain, Saudi Arabia, Qatar, the United Arab Emirates and Oman. The collective message delivered by the examined cases is that e-government is becoming an integral part of the respective countries' life, with a by-product being an increase in the society's cyber-literacy. The dual mission of the Dubai e-government is: "To ease the lives of people and business interacting with government, and to contribute in establishing Dubai as a leading economic hub." –Sheikh Mohammed Bin Rashid Al Maktoum.

Published

2004

5. Timing and connectivity in the human somatosensory cortex from single trial mass electrical activity

Author

Ioannides, Andreas A., Kostopoulos, George K., Laskaris, Nikolaos A., Liu, Lichan, Shibata, Tadahiko, Schellens, Marc, Poghosyan, Vahe, and Khurshudyan, Ara

Abstract

Parallel-distributed processing is ubiquitous in the brain but often ignored by experimental designs and methods of analysis, which presuppose sequential and stereotypical brain activations. We introduce here a methodology that can effectively deal with sequential and distributed activity. Regional brain activations elicited by electrical median nerve stimulation are identified in tomographic estimates extracted from single trial magnetoencephalographic signals. Habituation is identified in both primary somatosensory cortex (SI) and secondary somatosensory cortex (SII), often interrupted by resurgence of strong activations. Pattern analysis is used to identify single trials with homogeneous regional brain activations. Common activity patterns with well-defined connectivity are identified within each homogeneous group of single trials across the subjects studied. On the contralateral side one encounters distinct sets of single trials following identical stimuli. We observe in one set of trials sequential activation from SI to SII and insula with onset of SII at 60 msec, whereas in the other set simultaneous early co-activations of the same two areas. Hum. Brain Mapping 15:231–246, 2002. © 2002 Wiley-Liss, Inc.

Published

2002

6. Timing and connectivity in the human somatosensory cortex from single trial mass electrical activity

Author

Ioannides, Andreas A., Kostopoulos, George K., Laskaris, Nikolaos A., Liu, Lichan, Shibata, Tadahiko, Schellens, Marc, Poghosyan, Vahe, and Khurshudyan, Ara

Abstract

Parallel‐distributed processing is ubiquitous in the brain but often ignored by experimental designs and methods of analysis, which presuppose sequential and stereotypical brain activations. We introduce here a methodology that can effectively deal with sequential and distributed activity. Regional brain activations elicited by electrical median nerve stimulation are identified in tomographic estimates extracted from single trial magnetoencephalographic signals. Habituation is identified in both primary somatosensory cortex (SI) and secondary somatosensory cortex (SII), often interrupted by resurgence of strong activations. Pattern analysis is used to identify single trials with homogeneous regional brain activations. Common activity patterns with well‐defined connectivity are identified within each homogeneous group of single trials across the subjects studied. On the contralateral side one encounters distinct sets of single trials following identical stimuli. We observe in one set of trials sequential activation from SI to SII and insula with onset of SII at 60 msec, whereas in the other set simultaneous early co‐activations of the same two areas. Hum. Brain Mapping 15:231–246, 2002. © 2002 Wiley‐Liss, Inc.

Published

2002

7. Curriculum management for the global e-reality

Author

Kostopoulos, George

Abstract

In this paper, socio-techno-educational trends and the resulting issues are discussed. The need for curricula management is pointed out and specific areas are identified. The paper's thesis is that, at the undergraduate degree level, four courses need be included on the utilisation of cyberpower, while at the individual course level, the syllabi must contain deliverables that are web-researched and web-presentable. In addition, the student-faculty response time needs to be minimised to maintain an efficient and effective teaching-learning environment.

Published

2002

8. Stochastic particle formulation of the vesicle hypothesis Relevance to shortterm phenomena

Author

Melkonian, Dmitriy S. and Kostopoulos, George K.

Abstract

Based on the vesicle hypothesis, the modes of elementary quantum-vesicle interactions have been formulated in terms of probabilities of induced and spontaneous interstate quanta transitions and generalized within the framework of the previously developed theory of the double barrier synapse. Among the three allowed states for a quantum, the transition state is a novel formulation for the fraction of immediately available quanta governed by both vesicle and presynaptic membranes. The parameters of the model were determined by fitting solutions to the experimental curves representing effects of single pulse and short train activation on transmitter release at the frog neuromuscular junction. Qualitative differences in particle physics of transmitter release found under low quantal outputs on one hand and normal transmission on the other allowed the formulation of the uncertainty hypothesis and the quantum condition of synaptic homeostasis.

Published

1996

9. Lower density of A1 adenosine receptors in nucleus reticularis thalami in rats with genetic absence epilepsy

Author

Ekonomou, Antigoni, Angelatou, Fevronia, Vergnes, Marguerite, and Kostopoulos, George

Abstract

THE possible involvement of the adenosinergic modula-tory system in the pathogenesis of absence seizures was investigated in genetic absence epilepsy rats from Strasbourg (GAERS). Usin g in vitroquantitative autoradiography, the distribution of A1 adenosine receptors and adenosine uptake sites in the brain of GAERS was studied and compared to that of control animals. An area-specific lower density of A1 receptors (15 decrease) was detected in reticular (nRT) and anterior ventral (AV) thalamic nuclei as well as basal ganglia in the brains of GAERS animals compared with control animals. Since adenosine exerts an anti-oscillatory effect on the thalamic nuclei by suppressing (via A1 receptors) excitatory as well as inhibitory neurotransmitter release, the impairment in A1 receptor density seen here, especially in nRT, could be implicated in the thalamic rhythmicity underlying spike and wave discharges present in this absence epilepsy model.

Published

1998

10. A hemodynamic network involving the insula, the cingulate, and the basal forebrain correlates with EEG synchronization phases of sleep instability

Author

Kokkinos, Vasileios, Vulliémoz, Serge, Koupparis, Andreas M, Koutroumanidis, Michalis, Kostopoulos, George K, Lemieux, Louis, and Garganis, Kyriakos

Abstract

The cyclic alternating pattern (CAP) encompasses the pseudoperiodic appearance of synchronized brain waves and rhythms and is considered a regulator of the nonrapid eye movement (NREM) sleep vigilance level, reflecting sleep instability. To determine the brain regions responsible for this phenomenon, we scored and analyzed sleep functional magnetic resonance imaging data acquired with simultaneous electroencephalography (EEG-fMRI). Group analysis revealed a set of brain areas showing statistically significant blood oxygen-level dependent signal correlated positively with the synchronization phase of the CAP, most prominent being the insula, the middle cingulate gyrus, and the basal forebrain. These areas may form a network acting as a synchronization pacemaker, controlling the level of NREM sleep vigilance and the sleeper’s arousability.

Published

2019