Abstract: A system and method for selecting leadwire stimulation parameters includes a processor iteratively performing, for each of a plurality of values for a particular stimulation parameter, each value corresponding to a respective current field: (a) shifting the current field longitudinally and/or rotationally to a respective plurality of locations about the leadwire; and (b) for each of the respective plurality of locations, obtaining clinical effect information regarding a respective stimulation of the patient tissue produced by the respective current field at the respective location; and displaying a graph plotting the clinical effect information against values for the particular stimulation parameter and locations about the leadwire, and/or based on the obtained clinical effect information, identifying an optimal combination of a selected value for the particular stimulation parameter and selected location about the leadwire at which to perform a stimulation using the selected value.

Abstract: A system and method for providing a user interface by which to display and/or control stimulation parameter settings includes a processor displaying a ray at an angle from a predetermined direction, and about a point representing a leadwire, that corresponds to a direction at which an electrical field is produced by respective electrical settings of one or more directional electrodes of the leadwire, and whose ray length corresponds to an electrical amplitude of an electrical parameter of the one or more directional electrodes.

Abstract: A method for providing therapy to a patient using intermittent electrical stimulation includes advancing a plurality of electrodes disposed along a distal portion of a lead to a target stimulation location within a patient. A proximal portion of the lead is coupled to an electrical stimulator disposed external to the patient. Patient tissue at the target stimulation location is stimulated for a first duration of time that is no greater than one day using the plurality of electrodes. The stimulation provides efficacious treatment to the patient for a second duration of time that is at least twice as long as the first duration of time. Stimulation is ceased after completion of the first duration of time. The lead is removed from the patient after ceasing stimulation and prior to an end of the second duration of time.

Abstract: A transcutaneous electrical-stimulation system includes a transcutaneous control module including a processor. The transcutaneous control module provides electrical-stimulation signals to electrode sets electrically-coupled to the transcutaneous control module. A first electrode set is electrically-coupled to the transcutaneous control module and is placed along patient skin over a first stimulation location. The first electrode set generates a first effective electric field suitable for transcutaneous stimulation of patient tissue at the first stimulation location. A second electrode set is electrically-coupled to the transcutaneous control module and is placed along patient skin over a second stimulation location. The second electrode set generates a second effective electric field suitable for stimulating patient tissue at the second stimulation location.

Abstract: An electrical stimulation system includes an implantable control module configured and arranged for implantation in a body of a patient. The implantable control module includes a processor that generates and delivers electrical stimulation pulses or pulse bursts at a pathological frequency or with a temporal separation between pulses or pulse bursts individually selected based on a pre-determined distribution function based on a pre-selected pathological frequency.

Abstract: A computer implemented system and method facilitates a cycle of generation, sharing, and refinement of volumes related to stimulation of anatomical tissue, such as brain or spinal cord stimulation. Such volumes can include target stimulation volumes, side effect volumes, and volumes of estimated activation. A computer system and method also facilitates analysis of groups of volumes, including analysis of differences and/or commonalities between different groups of volumes.

Abstract: A computer implemented system and method facilitates a cycle of generation, sharing, and refinement of volumes related to stimulation of anatomical tissue, such as brain or spinal cord stimulation. Such volumes can include target stimulation volumes, side effect volumes, and volumes of estimated activation. A computer system and method also facilitates analysis of groups of volumes, including analysis of differences and/or commonalities between different groups of volumes.

Abstract: A system and method for selecting leadwire stimulation parameters includes a processor iteratively performing, for each of a plurality of values for a particular stimulation parameter, each value corresponding to a respective current field: (a) shifting the current field longitudinally and/or rotationally to a respective plurality of locations about the leadwire; and (b) for each of the respective plurality of locations, obtaining clinical effect information regarding a respective stimulation of the patient tissue produced by the respective current field at the respective location; and displaying a graph plotting the clinical effect information against values for the particular stimulation parameter and locations about the leadwire, and/or based on the obtained clinical effect information, identifying an optimal combination of a selected value for the particular stimulation parameter and selected location about the leadwire at which to perform a stimulation using the selected value.

Abstract: A system and method for providing a user interface by which to display and/or control stimulation parameter settings includes a processor displaying a ray at an angle from a predetermined direction, and about a point representing a leadwire, that corresponds to a direction at which an electrical field is produced by respective electrical settings of one or more directional electrodes of the leadwire, and whose ray length corresponds to an electrical amplitude of an electrical parameter of the one or more directional electrodes.

Abstract: A clinician programmer (CP) system for programming a patient's Implantable Medical Device (IMD) is disclosed having an optical head-mounted display (OHMD) that a clinician can use to adjust the therapy provided by the IMD, such as the stimulation parameters provided by an Implantable Pulse Generator (IPG). The OHMD is preferably enabled by improved CP software operable in a CP system computer to render an OHMD Graphical User Interface (GUI) in the OHMD, which may be limited to critical CP functionality; non-critical functionality can be rendered by the CP software on the CP computer. The OHMD GUI is preferably rendered in a simple format within the clinician's field of view. The clinician can access the OHMD GUI, by touch or voice for example, to change therapy parameters and to send such changes to the patient's IMD while continuing to observe the patient.

Abstract: A lead assembly for an electrical stimulation system includes terminals disposed along a proximal end of a lead body and electrodes disposed along a distal end of the lead body. The electrodes include segmented electrodes. At least one distal marker is disposed along the distal end of the lead body. The distal marker identifies the circumferential position of at least one of the segmented electrodes along the lead body. The distal marker is aligned with at least one of the segmented electrodes along the longitudinal length of the lead body. At least one proximal marker is disposed along the proximal end of the lead body. The proximal marker is aligned with the distal marker along the longitudinal length of the lead body. The distal marker and the proximal marker are discontinuous with one another along the lead body.

Abstract: A neurostimulation system comprising stimulation output circuitry configured for delivering stimulation pulses to target tissue in accordance with a set of stimulation parameters.

Abstract: A remote control device communicatively coupled to an implanted stimulation device displays representations of modifications to stimulation settings of the implanted stimulation device according to setting change instructions input by a user, without the instructed change being implemented at the implanted stimulation device. The remote control includes an input component(s) for input of patient condition information correlated to settings of the implanted stimulation device. The implanted stimulation device cycles through stimulation programs without the remote control device indicating the changes and while the remote control device receives input of patient condition information.

Abstract: A method for implanting a lead within brain tissue of a patient, wherein the lead comprises a set of radially segmented electrodes on a distal end of the lead is provided. The method includes performing a plurality of microelectrode recordings through a respective plurality of recording tracts in the brain tissue; based on the microelectrode recordings, creating a three-dimensional map of a brain structure; positioning a graphical representation of the radially segmented electrodes over the map of the brain structure to create a graphical depiction of a desired depth and a desired radial orientation of the lead within the brain tissue; and implanting the lead in the brain tissue in accordance with the desired depth and desired radial orientation. A device for determining a radial orientation of the lead includes a radially directional ruler and an indicator for indicating which electrode is in contact with the ruler.

Abstract: A system and method for providing a user interface by which to display and/or control stimulation parameter settings includes a processor displaying a ray at an angle from a predetermined direction, and about a point representing a leadwire, that corresponds to a direction at which an electrical field is produced by respective electrical settings of one or more directional electrodes of the leadwire, and whose ray length corresponds to an electrical amplitude of an electrical parameter of the one or more directional electrodes.

Abstract: A system and method for outputting historical stimulation information includes a processor configured to assign individual display regions, e.g., pixels or voxels, (or a larger region) a score based on those volumes of activations (VOA) in which the individual display region had been included and the scores assigned to those VOAs, and display in a display device a map of varying graphical indicia based on the different scores assigned to the elemental display regions.

Abstract: A system and method for selecting leadwire stimulation parameters includes a processor iteratively performing, for each of a plurality of values for a particular stimulation parameter, each value corresponding to a respective current field: (a) shifting the current field longitudinally and/or rotationally to a respective plurality of locations about the leadwire; and (b) for each of the respective plurality of locations, obtaining clinical effect information regarding a respective stimulation of the patient tissue produced by the respective current field at the respective location; and displaying a graph plotting the clinical effect information against values for the particular stimulation parameter and locations about the leadwire, and/or based on the obtained clinical effect information, identifying an optimal combination of a selected value for the particular stimulation parameter and selected location about the leadwire at which to perform a stimulation using the selected value.

Abstract: A remote control device communicatively coupled to an implanted stimulation device displays representations of modifications to stimulation settings of the implanted stimulation device according to setting change instructions input by a user, without the instructed change being implemented at the implanted stimulation device. The remote control includes an input component(s) for input of patient condition information correlated to settings of the implanted stimulation device. The implanted stimulation device cycles through stimulation programs without the remote control device indicating the changes and while the remote control device receives input of patient condition information.