The subject matter of the present disclosure generally relates to techniques for neuromodulation of a tissue (e.g., an organ) that include applying energy (e.g., ultrasound energy) into the tissue to cause altered activity at a synapse between a neuron and a non-neuronal cell. In one embodiment, the energy is applied to cause competing or opposing effects for bi-directional control of physiological processes.

A system for treating a patient comprises a stimulator for stimulating brain tissue, a controller for setting stimulation parameters and a diagnostic tool for measuring patient parameters and producing diagnostic data. The stimulation parameters comprise test stimulation parameters and treatment stimulation parameters. The stimulator delivers test stimulation energy to the brain tissue based on at least one test stimulation parameter and delivers treatment stimulation energy to the brain tissue based on at least one treatment stimulation parameter. One or more treatment stimulator parameters are determined based on the diagnostic data produced by the diagnostic tool The system is constructed and arranged to treat a neurological disease or a neurological disorder. Methods of treating a neurological disease or neurological disorder are also provided.

Stimulation of neural activity in a nerve supplying the spleen, wherein the nerve is associated with a neurovascular bundle, can modulate pro- and anti-inflammatory molecules levels, thereby reducing inflammation and providing ways of treating inflammatory disorders. The invention provides improved ways of treating inflammatory disorders which minimize off-target effects.

Modulation of the neural activity of a nerve adjacent to the left gastro epiploic artery (LGEA) and/or a nerve adjacent to a short gastric artery (SGA) can modulate the neural activity of the sympathetic nerves that impact splenic function. This is useful for reducing inflammation and providing ways of treating inflammatory disorders.

A method and external device for providing sub-perception stimulation to a patient via an implantable stimulator device is disclosed. Stimulation parameters for the patient are determined that provide sub-perception stimulation to address a symptom of the patient. A schedule is determined to provide scheduled boluses of stimulation, where each bolus comprises a duration during which stimulation is applied to the patient in accordance with the stimulation parameters, and where the scheduled boluses are separated by off times when no stimulation is provided to the patient. Preferably, the duration of each of the scheduled boluses is 3 minutes or longer, and the duration of each of the off times is 30 minutes or greater. Additional boluses can be provided on demand in addition to the scheduled boluses by selecting an option on the external device, although the provision of such additional boluses may be constrained by a lockout period.

This document provides methods and materials involved in assessing concentrations of analytes in an environment using a diamond-containing carbon electrode. For example, methods and materials for using FSCV or paired pulse voltammetry to discriminate analytes based on their adsorption characteristics to a diamond-containing carbon electrode are described herein.

Modulation of neural signaling of an eye-related sympathetic nerve can mitigate choroidal neovascularization (CNV) in the eye, and this provides a way of treating eye disorders, such as ocular neovascular diseases.

A pacemaker having a motion sensor delivers atrial-synchronized ventricular pacing by detecting events from a signal produced by the motion sensor and delivering ventricular pacing pulses at a rate that tracks the rate of the detected events. The pacemaker is configured to confirm atrial tracking of the ventricular pacing pulses by determining if detected events from the motion sensor signal are atrial events. The pacemaker is configured to adjust a control parameter used for detecting events from the motion sensor signal if atrial tracking is not confirmed.

This document provides methods and materials involved in assessing concentrations of analytes in an environment using a diamond-containing carbon electrode. For example, methods and materials for using FSCV or paired pulse voltammetry to discriminate analytes based on their adsorption characteristics to a diamond-containing carbon electrode are described herein.

Improved in vivo brain therapy is provided with a system having a neural implant that delivers both electrical stimulation and stem cell therapy to the brain. The return electrode for electrical stimulation is spaced apart from the implant to prevent local short-circuiting of the electrical stimulation. After forming the implant, stem cells can be seeded upon it, and subsequently, the apparatus can be implanted in vivo. A cannula system allows for continued electrical stimulation and the ability to manipulate the stem cells within the host environment.