Changes to the electroencephalogram (EEG) observed during general anesthesia are modeled with a physiological mean field theory of electrocortical activity. To this end a parametrization of the postsynaptic impulse response is introduced which takes into account pharmacological effects of anesthetic agents on neuronal ligand-gated ionic channels. Parameter sets for this improved theory are then identified which respect known anatomical constraints and predict mean firing rates and power spectra typically encountered in human subjects. Through parallelized simulations of the eight nonlinear, two-dimensional partial differential equations on a grid representing an entire human cortex, it is demonstrated that linear approximations are sufficie...
The behavior of the brain under general anesthesia remains poorly understood despite the widespread ...
This chapter discusses variations in visual evoked potentials under anesthesia. Even though the brai...
Abstract The rationale for automatically monitoring anesthetic drug effects on the central nervous s...
Changes to the electroencephalogram (EEG) observed during general anesthesia are modeled with a phys...
Anesthetic and analgesic agents act through a diverse range of pharmacological mechanisms. Existing ...
International audienceIn this paper, an enhanced local mean-field model that is suitable for simulat...
Relating the measurable, large scale, effects of anaesthetic agents to their molecular and cellular ...
We describe a model for simulating a spontaneous electroencephalogram (EEG) and for simulating the e...
Significant effort toward the automation of general anesthesia has been made in the past decade. One...
<div><p>Modeling the effects of anesthetic drugs on brain activity is very helpful in understanding ...
International audienceThe neuronal mechanisms of general anesthesia are still poorly understood. Bes...
The work introduces a linear neural population model that allows to derive analytically the power sp...
Target controlled infusion (TCI) of intraveneous anesthetics can assist clinical practitioners to pr...
We solve eight partial-differential, two-dimensional, nonlinear mean field equations, which describe...
During the maintenance period of propofol-induced general anesthesia, specific changes in spontaneou...
The behavior of the brain under general anesthesia remains poorly understood despite the widespread ...
This chapter discusses variations in visual evoked potentials under anesthesia. Even though the brai...
Abstract The rationale for automatically monitoring anesthetic drug effects on the central nervous s...
Changes to the electroencephalogram (EEG) observed during general anesthesia are modeled with a phys...
Anesthetic and analgesic agents act through a diverse range of pharmacological mechanisms. Existing ...
International audienceIn this paper, an enhanced local mean-field model that is suitable for simulat...
Relating the measurable, large scale, effects of anaesthetic agents to their molecular and cellular ...
We describe a model for simulating a spontaneous electroencephalogram (EEG) and for simulating the e...
Significant effort toward the automation of general anesthesia has been made in the past decade. One...
<div><p>Modeling the effects of anesthetic drugs on brain activity is very helpful in understanding ...
International audienceThe neuronal mechanisms of general anesthesia are still poorly understood. Bes...
The work introduces a linear neural population model that allows to derive analytically the power sp...
Target controlled infusion (TCI) of intraveneous anesthetics can assist clinical practitioners to pr...
We solve eight partial-differential, two-dimensional, nonlinear mean field equations, which describe...
During the maintenance period of propofol-induced general anesthesia, specific changes in spontaneou...
The behavior of the brain under general anesthesia remains poorly understood despite the widespread ...
This chapter discusses variations in visual evoked potentials under anesthesia. Even though the brai...
Abstract The rationale for automatically monitoring anesthetic drug effects on the central nervous s...