Abstract: The present invention describes systems and methods for predicting and detecting a seizure in a subject. The methods of the invention comprise measuring interneuron synchrony in terms of the coherence between interneuron action potentials and local field potential oscillations. In one embodiment, the detection of specific patterns of coherence, correlation and firing rate of interneurons predicts an upcoming seizures.

Abstract: One aspect of the invention provides an optically powered, integrated wireless neural electrode-telemetry module comprising (a) porous silicon wafer; (b) at least one neural electrode; (c) a low noise pre-amplifier; (d) an optical power converter; (e) a signal processor; and (f) a radio-frequency (RF) transmitter microchip. Another aspect of the invention provides a method of chronically recording electrical activity from a single neuron in vivo. The method comprises implanting an optically powered, integrated wireless neural electrode-telemetry module into the brain or spinal cord of a subject.

Abstract: One aspect of the invention provides a method of predicting a seizure in a subject comprising: (a) recording single neuron activity for a plurality of interneurons within the subject's mesial temporal lobe; (b) recording local field potential (LFP) within the subject's mesial temporal lobe; (c) measuring interneuron synchrony within the subject's mesial temporal lobe; and (d) detecting a pattern of interneuron activity and interneuron synchrony within the subject's mesial temporal lobe associated with an increased likelihood of a seizure. Another aspect of the invention provides a method for preventing a seizure in a subject comprising: (a) performing any one of the methods described herein; and (b) upon detection of the pattern, administering a therapeutically effective intervention to the subject to prevent onset of a seizure.

Abstract: The present invention describes systems and methods for predicting and detecting a seizure in a subject. The methods of the invention comprise measuring interneuron synchrony in terms of the coherence between interneuron action potentials and local field potential oscillations. In one embodiment, the detection of specific patterns of coherence, correlation and firing rate of interneurons predicts an upcoming seizures.

Abstract: An apparatus is disclosed for controlled neuromodulation. The apparatus includes a plurality of neural sensors, wherein each of the neural sensors is electrically connected to a separate signal conditioner. Each of the signal conditioners produces a neural sensor signal, which is analyzed by a separate threshold detector to produces a neural event signal when the neural sensor signal exceeds a threshold level associated with the threshold detector. Each of the threshold detectors is connected to a wireless transceiver and the wireless transceivers transmit the neural event signals to a processor. The processor analyzes the neural event signals and determines the presence or absence of a clinical brain state. The apparatus can be used to detect and control epileptic seizures.

Abstract: An apparatus is disclosed for controlled neuromodulation. The apparatus includes a plurality of neural sensors, wherein each of the neural sensors is electrically connected to a separate signal conditioner. Each of the signal conditioners produces a neural sensor signal, which is analyzed by a separate threshold detector to produces a neural event signal when the neural sensor signal exceeds a threshold level associated with the threshold detector. Each of the threshold detectors is connected to a wireless transceiver and the wireless transceivers transmit the neural event signals to a processor. The processor analyzes the neural event signals and determines the presence or absence of a clinical brain state. The apparatus can be used to detect and control epileptic seizures.

Abstract: Carbon-coated ceramic based electrode arrays having a ceramic substrate patterned with multiple recording sites are provided. Potentiostat devices having said carbon-coated ceramic based electrodes, and methods of use, are also provided. Certain embodiments of the present inventive articles, devices, and methods are especially suited for detection and/or measurement of electroactive species.

Abstract: An apparatus is disclosed for controlled neuromodulation. The apparatus includes a plurality of neural sensors, wherein each of the neural sensors is electrically connected to a separate signal conditioner. Each of the signal conditioners produces a neural sensor signal, which is analyzed by a separate threshold detector to produces a neural event signal when the neural sensor signal exceeds a threshold level associated with the threshold detector. Each of the threshold detectors is connected to a wireless transceiver and the wireless transceivers transmit the neural event signals to a processor. The processor analyzes the neural event signals and determines the presence or absence of a clinical brain state. The apparatus can be used to detect and control epileptic seizures.