Your search keyword '"Claude, Adam"' showing total 8 results

1. Intracortical recordings reveal vision-to-action cortical gradients driving human exogenous attention

Author

Tal Seidel Malkinson, Dimitri J. Bayle, Brigitte C. Kaufmann, Jianghao Liu, Alexia Bourgeois, Katia Lehongre, Sara Fernandez-Vidal, Vincent Navarro, Virginie Lambrecq, Claude Adam, Daniel S. Margulies, Jacobo D. Sitt, and Paolo Bartolomeo

Subjects

Science

Abstract

Abstract Exogenous attention, the process that makes external salient stimuli pop-out of a visual scene, is essential for survival. How attention-capturing events modulate human brain processing remains unclear. Here we show how the psychological construct of exogenous attention gradually emerges over large-scale gradients in the human cortex, by analyzing activity from 1,403 intracortical contacts implanted in 28 individuals, while they performed an exogenous attention task. The timing, location and task-relevance of attentional events defined a spatiotemporal gradient of three neural clusters, which mapped onto cortical gradients and presented a hierarchy of timescales. Visual attributes modulated neural activity at one end of the gradient, while at the other end it reflected the upcoming response timing, with attentional effects occurring at the intersection of visual and response signals. These findings challenge multi-step models of attention, and suggest that frontoparietal networks, which process sequential stimuli as separate events sharing the same location, drive exogenous attention phenomena such as inhibition of return.

Published

2024

2. Fronto-parietal networks shape human conscious report through attention gain and reorienting

Author

Jianghao Liu, Dimitri J. Bayle, Alfredo Spagna, Jacobo D. Sitt, Alexia Bourgeois, Katia Lehongre, Sara Fernandez-Vidal, Claude Adam, Virginie Lambrecq, Vincent Navarro, Tal Seidel Malkinson, and Paolo Bartolomeo

Subjects

Biology (General), QH301-705.5

Abstract

Abstract How do attention and consciousness interact in the human brain? Rival theories of consciousness disagree on the role of fronto-parietal attentional networks in conscious perception. We recorded neural activity from 727 intracerebral contacts in 13 epileptic patients, while they detected near-threshold targets preceded by attentional cues. Clustering revealed three neural patterns: first, attention-enhanced conscious report accompanied sustained right-hemisphere fronto-temporal activity in networks connected by the superior longitudinal fasciculus (SLF) II-III, and late accumulation of activity (>300 ms post-target) in bilateral dorso-prefrontal and right-hemisphere orbitofrontal cortex (SLF I-III). Second, attentional reorienting affected conscious report through early, sustained activity in a right-hemisphere network (SLF III). Third, conscious report accompanied left-hemisphere dorsolateral-prefrontal activity. Task modeling with recurrent neural networks revealed multiple clusters matching the identified brain clusters, elucidating the causal relationship between clusters in conscious perception of near-threshold targets. Thus, distinct, hemisphere-asymmetric fronto-parietal networks support attentional gain and reorienting in shaping human conscious experience.

Published

2023

3. Human periventricular nodular heterotopia shows several interictal epileptic patterns and hyperexcitability of neuronal firing

Author

Valerio Frazzini, Stephen Whitmarsh, Katia Lehongre, Pierre Yger, Jean-Didier Lemarechal, Bertrand Mathon, Claude Adam, Dominique Hasboun, Virginie Lambrecq, and Vincent Navarro

Subjects

epilepsy, periventricular nodular heterotopia, microelectrode, human, in vivo, interictal, Neurology. Diseases of the nervous system, RC346-429

Abstract

Periventricular nodular heterotopia (PNH) is a malformation of cortical development that frequently causes drug-resistant epilepsy. The epileptogenicity of ectopic neurons in PNH as well as their role in generating interictal and ictal activity is still a matter of debate. We report the first in vivo microelectrode recording of heterotopic neurons in humans. Highly consistent interictal patterns (IPs) were identified within the nodules: (1) Periodic Discharges PLUS Fast activity (PD+F), (2) Sporadic discharges PLUS Fast activity (SD+F), and (3) epileptic spikes (ES). Neuronal firing rates were significantly modulated during all IPs, suggesting that multiple IPs were generated by the same local neuronal populations. Furthermore, firing rates closely followed IP morphologies. Among the different IPs, the SD+F pattern was found only in the three nodules that were actively involved in seizure generation but was never observed in the nodule that did not take part in ictal discharges. On the contrary, PD+F and ES were identified in all nodules. Units that were modulated during the IPs were also found to participate in seizures, increasing their firing rate at seizure onset and maintaining an elevated rate during the seizures. Together, nodules in PNH are highly epileptogenic and show several IPs that provide promising pathognomonic signatures of PNH. Furthermore, our results show that PNH nodules may well initiate seizures.

Published

2022

4. Long-term deep intracerebral microelectrode recordings in patients with drug-resistant epilepsy: Proposed guidelines based on 10-year experience

Author

Katia Lehongre, Virginie Lambrecq, Stephen Whitmarsh, Valerio Frazzini, Louis Cousyn, Daniel Soleil, Sara Fernandez-Vidal, Bertrand Mathon, Marion Houot, Jean-Didier Lemaréchal, Stéphane Clemenceau, Dominique Hasboun, Claude Adam, and Vincent Navarro

Subjects

Drug-resistant epilepsy, sEEG, Human, Microelectrode, Multi-unit activity, Technical guidelines, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Purpose: Human neuronal activity, recorded in vivo from microelectrodes, may offer valuable insights into physiological mechanisms underlying human cognition and pathophysiological mechanisms of brain diseases, in particular epilepsy. Continuous and long-term recordings are necessary to monitor non predictable pathological and physiological activities like seizures or sleep. Because of their high impedance, microelectrodes are more sensitive to noise than macroelectrodes. Low noise levels are crucial to detect action potentials from background noise, and to further isolate single neuron activities. Therefore, long-term recordings of multi-unit activity remains a challenge. We shared here our experience with microelectrode recordings and our efforts to reduce noise levels in order to improve signal quality. We also provided detailed technical guidelines for the connection, recording, imaging and signal analysis of microelectrode recordings. Results: During the last 10 years, we implanted 122 bundles of Behnke-Fried hybrid macro-microelectrodes, in 56 patients with pharmacoresistant focal epilepsy. Microbundles were implanted in the temporal lobe (74%), as well as frontal (15%), parietal (6%) and occipital (5%) lobes. Low noise levels depended on our technical setup. The noise reduction was mainly obtained after electrical insulation of the patient's recording room and the use of a reinforced microelectrode model, reaching median root mean square values of 5.8 µV. Seventy percent of the bundles could record multi-units activities (MUA), on around 3 out of 8 wires per bundle and for an average of 12 days. Seizures were recorded by microelectrodes in 91% of patients, when recorded continuously, and MUA were recorded during seizures for 75 % of the patients after the insulation of the room. Technical guidelines are proposed for (i) electrode tails manipulation and protection during surgical bandage and connection to both clinical and research amplifiers, (ii) electrical insulation of the patient's recording room and shielding, (iii) data acquisition and storage, and (iv) single-units activities analysis. Conclusions: We progressively improved our recording setup and are now able to record (i) microelectrode signals with low noise level up to 3 weeks duration, and (ii) MUA from an increased number of wires . We built a step by step procedure from electrode trajectory planning to recordings. All these delicate steps are essential for continuous long-term recording of units in order to advance in our understanding of both the pathophysiology of ictogenesis and the neuronal coding of cognitive and physiological functions.

Published

2022

5. Sleep increases firing rate modulation during interictal epileptic activities in mesial structures

Author

Stephen Whitmarsh, Vi-Huong Nguyen-Michel, Katia Lehongre, Bertrand Mathon, Claude Adam, Virginie Lambrecq, Valerio Frazzini, and Vincent Navarro

Abstract

Epileptic seizures and interictal epileptiform discharges (IEDs) are strongly influenced by sleep and circadian rhythms. However, human data on the effect of sleep on neuronal behavior during interictal activity have been lacking. We analyzed EEG data from epileptic patients implanted with macro and micro electrodes targeting mesial temporal structures. Sleep staging was performed on concomitantly recorded polysomnography and video-EEG. Automated IED detection identified thousands of IEDs per patient. Both the rate and amplitude of IEDs were increased with deeper stages of NREM sleep. Single unit activity (SUA) and multi-unit activity (MUA) increased their firing during the IED spike, and strongly decreased during the subsequent slow wave. These time-locked firing rate modulations were shown to increase during deeper stages of NREM sleep. Finally, during resting behaviour, neuronal firing rate, bursting rate and firing regularity were all shown to progressively decrease with deeper stages of NREM sleep.

Published

2022

6. Daily resting‐state intracranial EEG connectivity for seizure risk forecasts

Author

Louis Cousyn, Rémy Ben Messaoud, Katia Lehongre, Valerio Frazzini, Virginie Lambrecq, Claude Adam, Bertrand Mathon, Vincent Navarro, and Mario Chavez

Subjects

Neurology, Neurology (clinical)

Abstract

Forecasting seizure risk aims to detect pro-ictal states in which seizures would be more likely to occur. Classical seizure prediction models are trained over long-term EEG recordings to detect specific preictal changes for each seizure, independently of those induced by shifts in states of vigilance. A daily single measure - during a vigilance-controlled period - to estimate the risk of upcoming seizure(s) would be more convenient. Here, we evaluated whether intracranial EEG connectivity (phase-locking value), estimated from daily vigilance-controlled resting-state recordings, could allow to distinguish interictal (no seizure) from preictal (seizure within the next 24hrs) states. We also assessed its relevance for daily forecasts of seizure risk using machine learning models. Connectivity in the theta band was found to provide best prediction performances (AUC≥0.7 in 80% of patients), with accurate daily and prospective probabilistic forecasts (mean Brier and skill Brier scores of 0.11 and 0.74, respectively). More efficient ambulatory clinical application could be considered using mobile EEG or chronic implanted devices.

Published

2022

7. Intracranial study in humans: Neural spectral changes during watching comedy movie of Charlie Chaplin

Author

Vadim Axelrod, Camille Rozier, Elisa Sohier, Katia Lehongre, Claude Adam, Virginie Lambrecq, Vincent Navarro, and Lionel Naccache

Subjects

Behavioral Neuroscience, Cognitive Neuroscience, Experimental and Cognitive Psychology

Published

2023

8. Gamma amplitude is coupled to opposed hippocampal theta-phase states during the encoding and retrieval of episodic memories in humans

Author

Ludovico Saint Amour di Chanaz, Alexis Pérez-Bellido, Xiongbo Wu, Diego Lozano-Soldevilla, Daniel Pacheco-Estefan, Katia Lehongre, Estefanía Conde-Blanco, Pedro Roldan, Claude Adam, Virginie Lambrecq, Valerio Frazzini, Antonio Donaire, Mar Carreño, Vincent Navarro, Antoni Valero-Cabré, and Lluís Fuentemilla

Subjects

General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Published

2023