A method for anti-inflammatory treatment of diabetic retinopathy can include systemic administration of an A2aAR agonist and providing local electric field stimulation to the retina. The electric field stimulation causes translocation of A2aRs from cytosol to the cell membranes and makes them active and available for binding with adenosine and adenosine agonists. Increased numbers of active A2aRs on cellular membranes leads to several-fold increase in the anti-inflammatory signal transduced into the cells. Amplified adenosine-A2aR signaling pathway causes significant inhibition of production of proinflammatory cytokines and other cytotoxic activity of microglia thus protecting the retina from destruction by the immune system and preserving eyesight. A treatment apparatus can include a multicoil applicator with coils adapted for positioning near eyes for stimulating retina, a pulse generator functionally coupled to the applicator and a power supply.

An implantable neurostimulator system including an electrical lead having formed thereon a pair of bipolar electrodes, the electrical lead is configured for placement of the pair of bipolar electrodes proximate protrusor muscles of a patient. The system also includes a pulse generator electrically connected to the electrical lead and configured to deliver electrical energy to the pair of bipolar electrodes, the pulse generator having mounted therein a sensor configured to detect one or more physiological parameters, a memory, a control circuit, and a telemetry circuit. The system also including a communications telemetry module (CTM) in communication with the telemetry circuit and configured to receive a data collected by the sensor and data related to delivery of electrical energy to the bipolar electrodes, and an external programmer in communication with the CTM and configured to display a user interface the data collected by the sensor and data related to delivery of electrical energy to the bipolar electrodes.

The present disclosure relates to a method of generating visual percepts using conformal electrode arrays. The electrode arrays can be placed into the ventricular system or cerebral venous sinuses, which function as minimally invasive techniques for precise spatial and temporal localization of electrical activity within the brain, and precise electrical stimulation of brain tissue, to diagnose and restore function in conditions caused by abnormal electrical activity in the brain. The disclosure further comprises a system for using these arrays to generate time-varying electric fields to stimulate the visual pathways of the brain, including the optic radiations and the occipital cortex, in ways that lead to visual perception.

Methods and systems for providing stimulation to a patient's brain using one or more electrode leads implanted in the patient's brain are described. The methods and systems use evoked potentials (EPs) and other indicators of therapeutic effectiveness/side effects to provide closed-loop control of the stimulation. Some embodiments involve recording EPs and using one or more features of the EPs to model how the stimulation activates networks within the patient's brain. A control algorithm can be used to maintain the network activation within a predetermined ranges.

A device for the treatment of snoring is provided. The device may include a flexible substrate configured for removable attachment to a subject's skin, a primary antenna disposed on the flexible substrate, an interface configured to receive a feedback signal that varies based upon a breathing pattern of the subject; and at least one processing device. The processing device may be configured to analyze the feedback signal and determine whether the subject is snoring based on the analysis of the feedback signal, and if snoring is detected, cause a hypoglossal nerve modulation control signal to be applied to the primary antenna in order to wirelessly transmit the hypoglossal nerve modulation control signal to a secondary antenna associated with an implant unit configured for location in a body of the subject.

Nerve stimulation systems and methods are disclosed for providing modulation of nerve targets in the lower limbs typically at or below the knee. For example, transcutaneous electrical nerve stimulation (TENS), percutaneous nerve stimulation, and implantable stimulation systems and methods are disclosed for providing stimulation to the saphenous nerve (SAFN). Additionally, systems and methods are provided for co-stimulating the posterior tibial nerve (PTN) and SAFN in combination with unique stimulation, and with control and display of OAB therapy protocols for multiple sites. Systems and methods of treatment can provide for management of usage and compliance monitoring, obtain and operating upon patient input responses to queries and management of payments and permissions related to provision of therapies for various disorders. Monitoring of usage and compliance can be managed both locally and remotely from a user. Stimulation provided in combination with a passive implantable component is also disclosed.

An auditory neural interface device for sound perception by an individual that may be used as a hearing aid. The auditory neural interface device includes a receiver configured to receive sound signals, a processor operably connected to the receiver and configured to encode a received sound signal as a multi-channel neurostimulation signal, and a neurostimulation device operably connected to the processor and configured to apply the multi-channel neurostimulation signal to a neurostimulation electrode of the individual. The neurostimulation signal is configured to directly stimulate afferent sensory neurons of the central nervous system of the individual and thereby to elicit, for each channel of the neurostimulation signal, one or more non-auditory, preferably somatosensory, perceptions in a cortex area of the individual. Each channel of the neurostimulation signal is associated with a different non-auditory perception.

Methods and apparatuses for treating inflammatory diseases by neurostimulation in patients who have failed to adequately respond or have become intolerant to a drug therapy (such as a TNF inhibitor and/or a JAK inhibitor).

A hearing assistance device includes an implantable part for electrically stimulating an auditory nerve of a user. The electrical stimulation of the cochlear nerve by a cochlear implant hearing assistance device is improved by providing an implanted part that comprises a) a current source generator; and b) an electrode array configured to be located inside one of the cochlear scala or adjacent to the auditory nerve. The hearing assistance device is configured to produce a time-varying waveform delivered by the current source generator, the time-varying waveform comprising a positively sloping positive pulse.

A method of treating an overactive bladder condition includes providing a stimulation device having a generator enclosing a primary cell that is coupled to circuitry, and a lead coupling an electrode assembly to the generator, where the circuitry is operable to generate a stimulation signal with a duty cycle of between 0.1% and 2.5% and a total average current drain from the primary cell of between 0.1 μA and 5 μA, with the total average current drain including a background current plus a stimulation current weighted by the duty cycle; forming an incision in skin of a patient diagnosed with the overactive bladder condition; implanting the stimulation device in the patient by inserting the stimulation device into the incision in the skin of the patient; and closing the incision.