Methods and systems of treating sleep disordered breathing in a patient suffering therefrom by activating one or more infrahyoid strap muscles are provided. Activation of one or more infrahyoid muscles can be accomplished by stimulating an ansa cervicalis, including one or both of the superior root and the inferior root of the ansa cervicalis, alone or in combination with stimulating the hypoglossal nerve.

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.

A system for selectively blocking nerve fiber activity in a target nerve is provided. The system includes one or more electrodes. The system further includes an electronic control system electrically attached to each electrode to deliver electrical stimulation to a target nerve to block nerve signal transmission of C-fibers in the target nerve such that the nerve signal transmission of A-fibers in the target nerve providing motor function and/or low-threshold sensory function is not blocked. A method of delivering electrical stimulation to selectively block nerve fiber activity in a target nerve and a kit for performing a procedure to selectively block nerve fiber activity are disclosed.

An electrical stimulation lead for a target nerve includes a sleeve having an inner surface and an outer surface, the inner surface defines a nerve channel. A longitudinal slit extends from the outer surface to the nerve channel and along an entire length of the sleeve. A width of the slit retains the target nerve within the nerve channel when the sleeve is closed and releases the target nerve when open. A plurality of electrodes are disposed on the inner surface of the sleeve. A flexible transition element electrically couples a lead body to the plurality of electrodes. Upper and lower sections of the sleeve rotates about a common hinge line (e.g., like a clam shell) located directly opposite the longitudinal slit. The material along the common hinge line remains “elastic” when the sleeve is moved from closed to open, and vice-versa.

This disclosure provides an apparatus or system for the modulation of neural activity in the cervical sympathetic chain (CSC) or superior cervical ganglion (SCG) or SCG post-ganglionic branch(es) and for the treatment of sleep apnoea, as well as methods for their use.

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.

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 system for controlling urination in a patient includes an implantable controller and an external device. The implantable controller includes circuitry and electrodes for stimulating the pudenal nerves in order to control urination. In addition, the implantable controller includes sensors for determining information on bladder fullness and for transmitting such information to an external device which is used for controlling the implanted controller. The external device will display when bladder filling exceeds a safe threshold level, allowing the patient and a caregiver to take appropriate steps to allow the patient to urinate.

An implantable electrode arrangement provides spatially-selective detection of neuronal electrical signals, which propagate along at least one nerve fiber contained in a nerve fascicle, and for selective electrical stimulation of the at least one nerve fiber, comprising a biocompatible carrier substrate, which has at least one carrier substrate region that can be placed around the nerve fascicle in a cuff and has a straight cylinder-shaped carrier substrate surface which faces the nerve fascicle in the implanted state. The carrier substrate surface has an axial extension and an extension oriented circumferentially in a direction and a first electrode arrangement attached thereto. The electrode arrangement comprises in an axial sequence, at least three first electrode structures with at least two first electrode surfaces arranged in the circumferentially, and at least two spaced first electrode strips, displayed in the axial direction which extend circumferentially which are in a ring shape, which encloses the at least three electrode structures on both sides in the axial direction. The electrodes are connectable or are connected to a signal detector and generator.

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.