Abstract: One aspect of the present disclosure relates to an oropharynx appliance that includes passive tongue retention structure having an end portion adapted to prevent a pharyngeal portion of a tongue of a subject from collapsing; and at least one anchoring structure that is connected to the passive tongue retention structure and adapted to secure the passive tongue retention structure to at least one tooth/mandible of the subject in a removable fashion. The passive tongue retention structure is sized and dimensioned so that the end portion prevents the posterior pharyngeal portion of the tongue from obstructing an oropharynx during sleep, without triggering a gag reflex, while still permitting the tongue to move during swallowing.

Abstract: A closed loop control system automatically ensures that an output of a device is constant. The system can receive an input to set a fixed value for a variable (e.g., a current, a heart rate, a tissue perfusion, an ion level, etc.), and this variable can be delivered to a feedback component. The system can also include the device to deliver the variable to a load. The feedback component can be coupled to the delivery device to sample the output of the delivery device at different times. Based on the sampling, the feedback component can vary a property of the delivery device related to the delivery of the variable to the load to ensure that the variable remains constant at the fixed value. In some instances, the system can be implemented as a stimulator that delivers the constant current of a current source and has a low output impedance of a voltage source.

Abstract: One aspect of the present disclosure relates a method of diagnosis and/or treatment of a solid tumor. The method includes directly measuring neural activity within a solid tumor for a time and determining a state of the solid tumor based on the neural activity. The diagnosis and/or treatment can be determined based on the state of the solid tumor. In some instances, the neural activity can be used in a closed loop to detect the neural activity, determine the state, determine the risk, apply treatment, check again for neural activity, and cease treatment when the neural activity is gone.

Abstract: One aspect of the present disclosure relates a method of diagnosis and/or treatment of a solid tumor. The method includes directly measuring neural activity within a solid tumor for a time and determining a state of the solid tumor based on the neural activity. The diagnosis and/or treatment can be determined based on the state of the solid tumor. In some instances, the neural activity can be used in a closed loop to detect the neural activity, determine the state, determine the risk, apply treatment, check again for neural activity, and cease treatment when the neural activity is gone.

Abstract: One aspect of the present disclosure relates to a system that monitors and detects obstructive sleep apnea (OSA). The system includes an oropharynx protection appliance, which includes a passive tongue retention structure having an end portion adapted to prevent a pharyngeal portion of a tongue of a subject from collapsing and at least one anchoring structure that is connected to the passive tongue retention structure and adapted to secure the passive tongue retention structure within the subject's mouth in a removable fashion. The system also includes a sensing system attached to a portion of the oropharynx apparatus. The sensing system includes a sensor to measure a position of the pharyngeal portion of the tongue to detect an obstruction of the oropharynx; and a wireless transceiver to transmit data related to the obstruction of the oropharynx to a remote diagnostic device.

Abstract: A system for reducing and/or eliminating noise in chronic neural recording of low amplitude neural signals from conscious, freely-moving subjects. Triboelectric noise effects are reduced or eliminated using in implant lead with insulating materials with charge affinities separated by 10 nC/J or less. The recording device can include a preamplifier device that uses capacitors with a low-distortion dielectric material.

Abstract: One aspect of the present disclosure can include an intrafascicular neural electrode. The intrafascicular neural electrode can include a microwire body having a proximal end, a distal anchoring end, and a middle portion extending between the proximal end and the distal anchoring end. The distal anchoring end can substantially match the mechanical and biological properties of the target nerve. The microwire body can have a middle anchoring portion extending between the proximal end and the distal end, wherein at least a portion of the distal end and/or the middle anchoring portion substantially match(es) the mechanical and biological properties of the target nerve. The electrode can be made of graphene. The microwire body, except for the distal anchoring end, can be coated with an insulation material, preferably with a biocompatible agent adsorbed onto the insulation material.

Abstract: One aspect of the present disclosure relates to a system that monitors and detects obstructive sleep apnea (OSA). The system includes an oropharynx protection appliance (12), which includes a passive tongue retention structure (13) having an end portion adapted to prevent a pharyngeal portion of a tongue of a subject from collapsing and at least one anchoring structure (15) that is connected to the passive tongue retention structure and adapted to secure the passive tongue retention structure within the subject's mouth in a removable fashion. The system also includes a sensing system (14) attached to a portion of the oropharynx apparatus. The sensing system includes a sensor (16) to measure a position of the pharyngeal portion of the tongue to detect an obstruction of the oropharynx; and a wireless transceiver (17) to transmit data related to the obstruction of the oropharynx to a remote diagnostic device (18).

Abstract: A closed loop control system automatically ensures that an output of a device is constant. The system can receive an input to set a fixed value for a variable (e.g., a current, a heart rate, a tissue perfusion, an ion level, etc.), and this variable can be delivered to a feedback component. The system can also include the device to deliver the variable to a load. The feedback component can be coupled to the delivery device to sample the output of the delivery device at different times. Based on the sampling, the feedback component can vary a property of the delivery device related to the delivery of the variable to the load to ensure that the variable remains constant at the fixed value. In some instances, the system can be implemented as a stimulator that delivers the constant current of a current source and has a low output impedance of a voltage source.

Abstract: A closed loop control system automatically ensures that an output of a device is constant. The system can receive an input to set a fixed value for a variable (e.g., a current, a heart rate, a tissue perfusion, an ion level, etc.), and this variable can be delivered to a feedback component. The system can also include the device to deliver the variable to a load. The feedback component can be coupled to the delivery device to sample the output of the delivery device at different times. Based on the sampling, the feedback component can vary a property of the delivery device related to the delivery of the variable to the load to ensure that the variable remains constant at the fixed value. In some instances, the system can be implemented as a stimulator that delivers the constant current of a current source and has a low output impedance of a voltage source.

Abstract: The present disclose generally relates to a multichannel low-noise amplifier. At each input to the multichannel low-noise amplifiers, a plurality of transistors can be connected in parallel. This parallel connection decreases the voltage noise beyond what is possible using a single input transistor at each input. As an additional benefit, the initial operating region of the input transistors is not changed. The multichannel low-noise amplifier can be incorporated on a single integrated circuit chip to amplify biological signals to facilitate selective recording of a property (e.g., amplifying neural signals to facilitate selective recording of neural activity).

Abstract: The present disclose generally relates to a system that controls blood pressure based on feedback-based neural stimulation. The system can include an electrode implantable within a nerve (e.g., an intra-fascicular electrode). The system can also include a hermetically-sealed electronics module connected to the electrode to record data related to neural activity from the nerve. The data related to the neural activity is indicative of the blood pressure. The system can also include an external device to communicate with the hermetically-sealed electronics module to receive and analyze the data related to the neural activity.

Abstract: Methods of treating pain are disclosed, wherein a non-pulsed, low-frequency electrical current is applied to the nerve carrying the pain signals in order to suppress transmission of those signals. In desired embodiments, the current is applied in a direction transverse to the nerve axis. Such currents have been found not to induce motor-neuron recruitment, meaning these methods can treat pain without causing muscle spasm or other muscular responses. A cuff for applying such a current transverse to the nerve axis is also disclosed.

Abstract: A method and an electrode for monitoring electrical activity in a nerve are provided along with a method of fabricating such an electrode. The electrode includes a cuff formed from a chronically-implantable material that, when implanted, extends at least partially around an external periphery of the nerve. A plurality of contacts are supported by the cuff to be arranged adjacent to different regions of the nerve distributed along a transverse direction of the nerve when the cuff is implanted. A multiplexer is coupled to the cuff to be implanted for receiving electrical signals introduced to the contacts by the nerve and multiplexing, in vivo, the electrical signals to be transmitted to an external receiver over a shared communication channel.

Abstract: One aspect of the present disclosure relates a method of diagnosis and/or treatment of a solid tumor. The method includes directly measuring neural activity within a solid tumor for a time and determining a state of the solid tumor based on the neural activity. The diagnosis and/or treatment can be determined based on the state of the solid tumor. In some instances, the neural activity can be used in a closed loop to detect the neural activity, determine the state, determine the risk, apply treatment, check again for neural activity, and cease treatment when the neural activity is gone.

Abstract: Cortical seizures can be suppressed with low frequency stimulation of the corpus callosum. An electrical stimulation signal with a frequency of less than 20 Hz can be applied to the corpus callosum in a patient's brain for a time. Hyper-excitability (indicative of seizure activity) of a target neural tissue within a cortex of the patient's brain that is activated by the corpus callosum can be suppressed. In fact, the hyper-excitability is reduced based on the stimulation.

Abstract: One aspect of the present disclosure relates to an oropharynx appliance that includes passive tongue retention structure (12) having an end portion (16) adapted to prevent a pharyngeal portion of a tongue of a subject from collapsing; and at least one anchoring structure (14, 148) that is connected to the passive tongue retention structure and adapted to secure the passive tongue retention structure to at least one tooth/mandible of the subject in a removable fashion. The passive tongue retention structure is sized and dimensioned so that the end portion prevents the posterior pharyngeal portion of the tongue from obstructing an oropharynx during sleep, without triggering a gag reflex, while still permitting the tongue to move during swallowing.

Abstract: One aspect of the present disclosure relates to a system to facilitate at home neural monitoring. The system can include a wearable device and an external device. The wearable device can include an electrode configured to be placed behind a patient's ear to record an electroencephalogram (EEG) signal; an amplifier to amplify the EEG signal; a battery; and a wireless transmission system to transmit the amplified EEG signal. The external device can be configured to receive the amplified EEG signal and to perform analysis of the amplified EEG signal. In some instances, the external device can also provide neural stimulation (e.g., acoustic, visual, or electrical) to the wearable device in response to analysis of the amplified EEG signal.

Abstract: One aspect of the present disclosure relates to a system for chronic neural recording from conscious, freely-moving subjects. The system can reduce or eliminate noise effects (due to triboelectric noise and audiophonic noise) during the chronic recording of low amplitude neural signals. The triboelectric noise effects can be reduced or eliminated by using in implant lead designed with insulating materials with charge affinities separated by 10 nC/J or less. The recording device can include a preamplifier device that uses capacitors with a low-distortion dielectric material.

Abstract: A closed loop control system automatically ensures that an output of a device is constant. The system can receive an input to set a fixed value for a variable (e.g., a current, a heart rate, a tissue perfusion, an ion level, etc.), and this variable can be delivered to a feedback component. The system can also include the device to deliver the variable to a load. The feedback component can be coupled to the delivery device to sample the output of the delivery device at different times. Based on the sampling, the feedback component can vary a property of the delivery device related to the delivery of the variable to the load to ensure that the variable remains constant at the fixed value. In some instances, the system can be implemented as a stimulator that delivers the constant current of a current source and has a low output impedance of a voltage source.