A cuff is described for a target anatomic feature within a body, along with a system for utilizing the cuff. The cuff includes a band defining a circumferential opening extending along a length of the band; and a pair of engagement surfaces defined by or affixed to the cuff, the engagement surfaces structured for application of a spreading force to be distributed continuously along a portion of the circumferential opening, thereby increasing the circumferential opening and expanding the cuff for a closed configuration to an open configuration sized for placement of the cuff. The cuff is structured to remain in the closed configuration in the absence of the spreading force and automatically return to the closed configuration after removal of the spreading force.

A sensory unit for implant-supported dental implants or prostheses. The main unit is composed of two or more subunits, or devices. One of the units is placed in the region of the implant head, and will have the function of transforming the mechanical forces into an electrical signal. It can also be placed in the masticatory region of implant supported bridges or overdenture, to perform the same function, i.e., transforming mechanical loads into an electrical signal. A second unit, will receive by a wired or wireless electronic communication the electrical signal, and will convert it into a neurological stimulus perceived sensorially by the sensory endings of the trigeminal nerve, unilaterally, or bilaterally. This second unit will be arranged in the submucosa, in the vicinity of the nerve ending, taking advantage of the anatomical depressions or recesses in the region, and will establish a gradient of neurological stimulation towards the nerve ending.

An extravascular neural interface is disclosed containing electrodes for neurostimulation of the vessel. The devices are housed in flexible substrates, each substrate having a spinal portion for routing leads/conductors into the device for connection to the electrodes. Extending from opposite sides of the spinal portion is a self-sizing inner flap that supports and positions the electrodes to be inward facing, i.e., extravascular designs, and one more rigid outer flap. The electrodes may be flexible multifilar coil electrodes.

Devices, systems, and techniques are disclosed for determining spatial relationships between electrodes implanted within a patient. In one example, a medical device delivers, via a first electrode, an electrical stimulus and senses, for each other electrode, a respective electrical signal indicative of the electrical stimulus. The medical device determines, for each other electrode, a respective value for each respective electrical signal. The medical device determines, based on the respective values for each respective electrical signal and values of tissue conductivity of tissues of the patient interposed between the first electrode and the other electrodes, spatial relationships between the first electrode and each other electrode of the plurality of electrodes.

An implant insertion system and methods of use of the implant insertion system are disclosed. The implant insertion system includes an implant and an instrument configured to deliver the implant to a biological structure and assist in deploying the implant to the biological structure. The instrument includes a retention member the secures the implant to the instrument and retains the implant in a first configuration. The retention member is movable to decouple the implant from the instrument. The implant is configured to transition from the first configuration to a second configuration, such that in the second configuration the implant is secured to the biological structure.

An electrode that includes an elongate lead body and a nerve cuff. The nerve cuff may include a biologically compatible, elastic, electrically insulative helical cuff body configured to be disposed around a nerve, and a plurality of electrically conductive contacts carried by the helical cuff body that are spaced from one another.

The present invention relates to a neuromodulation apparatus and methods of using the neuromodulation apparatus for treating bladder dysfunction.

Methods and apparatuses for stimulation of the vagus nerve to treat inflammation including adjusting the stimulation based on one or more metric sensitive to patient response. The one or more metrics may include heart rate variability, level of T regulatory cells, particularly memory T regulatory cells, temperature, etc. Stimulation may be provided through an implantable microstimulator.

A device for the extravasal or extraneuronal fastening of a medical implant has a biocompatible surface substrate including a first substrate portion which is a compression sleeve and a free end portion. By winding the first substrate portion about a spatial axis, the axis is loosely radially covered in at least one layer by the wound first substrate portion. A second substrate portion, which is attached integrally to the first substrate portion which is not wound about the spatial axis, has a connection extending away from the medical implant.

A neuromodulation system is provided herein. The system can include a cuff electrode, an electronics package, which can be part of a neuromodulation device; an external controller; a sensor; and a computing device. The neuromodulation device can include an antenna including an upper and a lower coil electrically connected to each other in parallel. The computing device can execute a closed-loop algorithm based on physiological sensed data relating to sleep.