Abstract: The invention relates to modulating epileptogenicity in a brain of an epileptic patient. The method according to the invention comprises the steps of: providing a virtual brain; providing a model of an epileptogenic and of a propagation zones and loading said models in the virtual brain to create a virtual epileptic brain; acquiring data of the brain of the epileptic patient; identifying, in said data, a location of at least one possible epileptogenic zone; fitting the virtual epileptic brain against the data acquired from the epileptic patient and parametrizing said at least one possible epileptogenic zone in the virtual epileptic brain as an epileptogenic zone; and simulating, within the virtual epileptic brain, the effect of a network modulation mimicking a clinical intervention of the brain of the patient.

Abstract: The invention relates to an in vitro or ex vivo method for differentially diagnosing a bipolar disorder and a major depressive disorder in a human patient in a need thereof presenting depressive symptoms, comprising the following steps: providing a biological sample from said patient; determining, from said biological sample, the abundance of at least one of the following cytokines TNF-?, IFN-?, IL-6, IL-10, IL-12p40, IL-15, IL-16, IL-17A and IL-27; and diagnosing a bipolar disorder or a major depressive disorder from the determination of the abundance of the at least one of the following cytokines TNF-?, IFN-?, IL-6, IL-10, IL-12p40, IL-15, IL-16, IL-17A and IL-27.

Abstract: The invention relates to a method for automatic and continuous measurement of a sedation state of a patient in an intensive care unit. The method according to the invention comprises the following steps: providing signals representative of the condition of the patient, said signals comprising cardio-circulatory signals, signals representative of the respiratory activity and signals representative of the motor activity of the patient; and determining a global index representative of the sedation state of the patient.

Abstract: The invention relates to modulating epileptogenicity in a brain of an epileptic patient. The method according to the invention comprises the steps of: providing a virtual brain; providing a model of an epileptogenic and of a propagation zones and loading said models in the virtual brain to create a virtual epileptic brain; acquiring data of the brain of the epileptic patient; identifying, in said data, a location of at least one possible epileptogenic zone; fitting the virtual epileptic brain against the data acquired from the epileptic patient and parametrizing said at least one possible epileptogenic zone in the virtual epileptic brain as an epileptogenic zone; and simulating, within the virtual epileptic brain, the effect of a network modulation mimicking a clinical intervention of the brain of the patient.

Abstract: The invention relates to a method for automatically detecting elements of interest in electrophysiological signals, and to a detector for implementing such a method. The method according to the invention comprises steps in which: electrophysiological signals are delivered; a whitened time-frequency representation of said electrophysiological signals is produced; a threshold is set; this threshold is applied to the whitened time-frequency representation; and, in the whitened time-frequency representation, local maxima that are higher than or equal to the applied threshold are detected.