Abstract: A deep brain stimulation (DBS) system provides for treating a human brain exhibiting a pathological condition. A controller generates a signal waveform defining a series of DBS pulses within an amplitude modulation envelope. The frequency of the amplitude modulation envelope may be less than or equal to half of a frequency of the DBS pulses. A driver circuit generates an amplified, amplitude-modulated electrical waveform corresponding to the signal waveform. A DBS electrode electrically coupled to the driver circuit converts the electrical waveform to a stimulation waveform to entrain neurons of the deep brain tissue in a normal oscillation pattern, thereby suppressing the pathological oscillation pattern to treat the pathological condition.

Abstract: A neurostimulation device includes a plurality of electrodes adapted to be electrically connected to a subject to receive multichannel electrical signals from the subject's brain, a multichannel seizure detection unit electrically connected to the plurality of electrical leads to receive the multichannel electrical signals, and a neurostimulation unit in communication with the multichannel seizure detection unit. The plurality of electrodes are at least three electrodes such that the multichannel electrical signals are at least three channels of electrical signals, and the multichannel seizure detection unit detects a presence of a seizure based on multichannel statistics from the multichannel electrical signals including higher order combinations than two-channel combinations.

Abstract: A neurostimulation device includes a plurality of electrodes adapted to be electrically connected to a subject to receive multichannel electrical signals from the subject's brain, a multichannel seizure detection unit electrically connected to the plurality of electrical leads to receive the multichannel electrical signals, and a neurostimulation unit in communication with the multichannel seizure detection unit. The plurality of electrodes are at least three electrodes such that the multichannel electrical signals are at least three channels of electrical signals, and the multichannel seizure detection unit detects a presence of a seizure based on multichannel statistics from the multichannel electrical signals including higher order combinations than two-channel combinations. Another embodiment of the invention includes determining a singular vector centrality (SVC) for each of the electrodes in order to detect the seizure onset.

Abstract: This patent describes a retractor system for surgical applications of the type used to retract organic tissues not involved in an operation, in an area where such an operation is to be performed, of the type comprising at least one spatula equipped with at least one spatula body (1) and a layer of bio-compatible material (20), as a coating adhering to the spatula body (1). Advantageously according to the invention, the retractor system comprises at least one sensor (2, 3, 4, 27), substantially integrated in such a spatula body (1) and at least partially coated with the layer of bio-compatible material (20) to detect characteristic parameters of the organic tissues at a point of contact with the spatula body (1). A detection system (40) using such retractor system is also described.