A method for treating a human subject having unilateral vocal cord paralysis includes sensing electrical activity of a dysfunctional muscle of the subject, generating at least one stimulation parameter, using a processor, based on the sensed electrical activity, and stimulating the dysfunctional muscle, using a stimulating electrode, based on the at least one stimulation parameter. A stimulation system is also provided.

Systems, methods and devices for paired training include timing controls so that training and neural stimulation can be provided simultaneously. Paired trainings may include therapies, rehabilitation and performance enhancement training. Stimulations of nerves such as the vagus nerve that affect subcortical regions such as the nucleus basalis, locus coeruleus or amygdala induce plasticity in the brain, enhancing the effects of a variety of therapies, such as those used to treat tinnitus, stroke, traumatic brain injury and post-traumatic stress disorder.

A method and system for treating cardiac arrhythmias which includes inserting one or more electrodes into a patient's neck, and connecting the electrodes to the vagus nerve in the patient's neck. A cardiac monitoring device detects a cardiac arrhythmia. A controller connected to an electrical power source provides electrical power to the electrodes to apply electrical stimulation to the vagus nerve when a cardiac arrhythmia is detected.

System and methods for monitoring and/or controlling nerve activity in a subject are provided. In one embodiment, a system includes electrodes configured to be placed proximate to a subject's skin, and a signal detector configured to detect electrical signals using the electrodes. The system also includes a signal processor configured to receive the electrical signals from the signal detector, and apply a filter to the received electrical signals to generate filtered signals, the filter configured to attenuate at least signals having frequencies corresponding to heart muscle activity during a heartbeat. The signal processor is also configured to identify a skin nerve activity using the filtered signals, estimate a sympathetic nerve activity using the identified skin nerve activity, and further to generate a report indicative of the estimated sympathetic nerve activity. In some aspects, the system further includes a signal generator to deliver the electrical stimulation to the subject's skin.

Electrical stimulation of neural activity in the neural innervation of the spleen that is associated with neurovascular bundles provides a useful way to treat acute medical conditions, such as trauma, hemorrhaging and shock.

A non-invasive electrical stimulator shapes an elongated electric field of effect that can be oriented parallel to a long nerve, such as a vagus nerve in a patient's neck, producing a desired physiological response in the patient. The stimulator comprises a source of electrical power, at least one electrode and a continuous electrically conducting medium in contact with the electrodes. The conducting medium is also in contact with an interface element that may conform to the contour of a target body surface of the patient when the interface element is applied to that surface. When the interface element is made of insulating (dielectric) material, and disclosed stimulation waveforms are used, the power source need not supply high voltage, in order to capacitively stimulate the target nerve. The stimulator produces a peak pulse that is sufficient to produce a physiologically effective electric field in the vicinity of a target nerve.

A therapy assembly configured for at least partial insertion in a living body. At least one fixation structure is attached to the therapy delivery element proximate the electrodes. The fixation structure is configured to collapse radially inward and wrap circumferentially around the therapy delivery element to a collapsed configuration when inserted into a lumen of an introducer. The fixation structures deploy to a deployed configuration when the introducer is retracted. The fixation structure includes major surfaces generally parallel with, and extending radially outward from, a central axis of the therapy delivery element, proximal edge surface oriented toward the proximal end, and a distal edge surface oriented toward the distal end. The proximal and distal edge surfaces provide generally symmetrical resistance to displacement of the therapy delivery element within the living body in either a proximal direction or a distal direction along the central axis.

Systems and methods are provided for delivering vagus nerve stimulation and cardioversion/defibrillation therapies to patients for treating chronic heart failure. The vagus nerve stimulation and cardioversion/defibrillation therapies may be provided using a single implantable pulse generator, which can coordinate delivery of the therapies to provide an acute vagus nerve stimulation therapy in advance of delivering cardioversion-defibrillation energy.

A method of inhibiting the release of a proinflammatory cytokine in a cell is disclosed. The method comprises treating the cell with a cholinergic agonist. The method is useful in patients at risk for, or suffering from, a condition mediated by an inflammatory cytokine cascade, for example endotoxic shock. The cholinergic agonist treatment can be effected by stimulation of an efferent vagus nerve fiber, or the entire vagus nerve.

System, method, and tool for implanting an electrode cuff. The system can include a cuff and a slider implement, where the cuff is temporarily retained within and/or onto the slider implement by a retainer mechanism during implantation. The cuff can be structured to exhibit a natural rolled shape, but can be resiliently bendable so as to flex from the rolled shape while having a tendency to move back to the rolled shape. The cuff can be releasably secured to a portion of the slider implement, which may include holding the cuff in an unrolled shape. The cuff can then be positioned adjacent the nerve. The retainer mechanism can then be actuated to allow the cuff to advance towards its naturally rolled shape, thereby wrapping around the nerve.