Patent application number | Description | Published |
20100137943 | METHOD AND APPARATUS FOR IDENTIFYING MIDDLE LEAD IN A TRI-LEAD CONFIGURATION - A method and medical system for operating three electrodes electrically coupled to three proximal contacts carried by three lead bodies is provided. The electrodes are implanted adjacent tissue of a patient and include a middle electrode and a pair of electrodes flanking the middle electrode. Electrical energy is conveyed between three different pairs of the proximal contacts, thereby respectively generating three electrical fields in the tissue between three electrode pairs. A potential of each of the electrical fields is measured at the remaining electrodes via the remaining proximal contacts, respectively. The lead body associated with the middle electrode is identified based on the measured electrical field potentials. | 06-03-2010 |
20100137944 | METHOD AND APPARATUS FOR DETERMINING RELATIVE POSITIONING BETWEEN NEUROSTIMULATION LEADS - A method and medical system for operating two leads disposed adjacent tissue of a patient are provided. A first one of a pair of electrodes respectively carried by the two leads is activated to generate an electrical field within the tissue. An electrical parameter in response to the generated electrical field is measured at a second one of the pair of electrodes. A reference electrical parameter is measured in response to the generated electrical field at a reference electrode carried by the same one of the two leads that carries the first electrode. A reference distance between the first electrode and the reference electrode is known prior to the generation of the electrical field. The ratio between the measured electrical parameter and the measured reference electrical parameter is computed, and the distance between the pair of electrodes is computed as a function of the computed ratio and the reference distance. | 06-03-2010 |
20110054551 | METHOD AND APPARATUS FOR DETERMINING RELATIVE POSITIONING BETWEEN NEUROSTIMULATION LEADS - A method and neurostimulation control system for operating two leads disposed adjacent tissue of a patient are provided. A plurality of cross-lead electrical parameters are measured to generate a measured electrical profile of the electrode leads. A plurality of cross-lead electrical parameters are estimated to generate a first reference electrical profile for the electrode leads in a first known staggered configuration. The first reference electrical profile is spatially shifted to generate a second reference electrical profile for the electrode leads in a second known staggered configuration. The measured electrical profile is compared to the first and second reference electrical profiles, and a longitudinal stagger between the electrode leads is quantified based on the comparison. | 03-03-2011 |
20120016445 | SYSTEM AND METHOD FOR ESTIMATING CLUSTERING OF ELECTRODES IN NEUROSTIMULATION SYSTEM - A method and neurostimulation control system for programming electrodes disposed adjacent tissue of a patient. The electrodes are initially assigned to a plurality of electrode subsets to be evaluated. A pair of immediately neighboring ones of the electrode subsets is determined, and merged into a new electrode subset that includes all electrodes in the pair of immediately neighboring electrode subsets. The new electrode subset is included within the plurality of electrode subsets to be evaluated, while the pair of immediately neighboring electrode subsets is excluded from the plurality of electrode sets to be evaluated. These steps are repeated until all the electrode subsets have been merged into a single electrode subset. A clustering relationship of the electrodes is identified, and the electrodes are programmed based on the identified clustering relationship of the electrodes. | 01-19-2012 |
20120016447 | SYSTEM AND METHOD FOR ESTIMATING LEAD CONFIGURATION FROM NEIGHBORING RELATIONSHIP BETWEEN ELECTRODES - A method and neurostimulation control system for programming electrodes disposed adjacent tissue of a patient. A fixed spatial grid of electrode positions is generated. One of the electrodes is designated as a reference electrode to be currently examined, and assigned to one of the electrode grid positions. One or more previously unassigned ones of the electrodes neighboring the reference electrode are assigned respectively to one or more of the electrode grid positions immediately surrounding the electrode grid position to which the reference electrode is assigned. The electrodes are programmed based on the assignment of the electrodes to the electrode grid positions. | 01-19-2012 |
20120165900 | NEUROSTIMULATION SYSTEM FOR IMPLEMENTING MODEL-BASED ESTIMATE OF NEUROSTIMULATION EFFECTS - A neurostimulation system for use in providing therapy to a patient comprises a user input device configured for receiving input from a user, and processing circuitry configured for selecting an electrode configuration in response to receiving the input from the user, providing an electrical model of a neuronal element of the patient, providing a discrete approximation of a differential equation of a neural response parameter (e.g., a transmembrane voltage potential) of the electrical model as a function of discrete space (e.g., nodes along the electrical model) and as a function of a finite time difference, computing the neural response parameter in the differential equation approximation at a specified time for each of a plurality of points on a membrane of the neuronal element, and performing a human-discernible function based on the computed neural response parameters. | 06-28-2012 |
20120165901 | NEUROSTIMULATION SYSTEM FOR ESTIMATING DESIRED STIMULATION AMPLITUDE FOR ELECTRODE CONFIGURATION - A neurostimulation system comprises a user input device configured for receiving input from a user, and processing circuitry configured for (a) selecting a first electrode configuration in response to receiving the user input, (b) predicting a neural response induced by electrical energy theoretically conveyed by the first electrode configuration at a specified amplitude, (c) deriving a metric value from the predicted neural response, (d) comparing the metric value to a reference threshold value, (e) adjusting the specified amplitude of the electrical energy if the metric value is not in a specified range relative to the reference threshold value, (f) repeating steps (b)-(e) using the adjusted amplitude as the specified amplitude until the metric value is in the specific range relative to the reference threshold value, and (g) instructing a neurostimulation device to deliver the electrical energy at the adjusted amplitude via the first electrode configuration to stimulate the patient. | 06-28-2012 |
20120239110 | NEUROSTIMULATION SYSTEM AND METHOD FOR ROSTRO-CAUDALLY STEERING CURRENT USING LONGITUDINAL IDEAL MULTIPOLE CONFIGURATIONS - A system for an electrical neurostimulator coupled to a plurality of electrodes. The system comprises a user-controlled input device configured for generating directional control signals. The system further comprises control circuitry configured for sequentially defining a plurality of different ideal bipole/tripole configurations relative to the plurality of electrodes in response to the directional control signals, generating a plurality of stimulation parameter sets respectively corresponding to the plurality of ideal bipole/tripole configurations, each stimulation parameter set defining relative amplitude values for the plurality of electrodes that emulate the respective ideal bipole/tripole configuration, and instructing the electrical neurostimulator to convey electrical energy to the plurality of electrodes in accordance with the plurality of stimulation parameter sets. | 09-20-2012 |
20120239116 | NEUROSTIMULATION SYSTEM FOR MATCHING IDEAL POLE SPACING WITH EFFECTIVE ELECTRODE SEPARATION - A system for a neurostimulator coupled to electrodes. The system comprises a input device configured for generating control signals, and control circuitry configured for defining at least one ideal multipole configuration relative to the electrodes in response to the control signals, the control circuitry, for each of the ideal multipole configuration(s), being further configured for, designating at least one of the electrodes as a reference electrode, estimating an effective electrode separation at each of the reference electrode(s), defining a spacing between the poles based on the estimated effective electrode separation at each of the reference electrode(s), generating at least one stimulation parameter set respectively corresponding to the ideal multipole configuration(s), each of the stimulation parameter set(s) defining relative amplitude values for the electrodes that emulate the respective ideal multipole configuration, and instructing the electrical neurostimulator to convey electrical energy to the electrodes in accordance with the stimulation parameter set(s). | 09-20-2012 |
20120265279 | SENSING DEVICE FOR INDICATING POSTURE OF PATIENT IMPLANTED WITH A NEUROSTIMULATION DEVICE - An implantable medical device comprises a medical component configured for performing a medical function in a patient, an orientation sensitive component including a housing having a cavity, a movable object configured for being displaced within the cavity in response to the change in the direction of a force applied to the movable object, and a plurality of fixed sensors spaced apart within the cavity for sensing a location of the movable object within the cavity, and monitoring circuitry configured for determining the orientation of the implantable medical device based on the sensed location of the movable object. | 10-18-2012 |
20120296392 | Display of region of activation in neurostimulation programming screen - A system for use with a neurostimulator coupled to one or more electrodes implanted adjacent neural tissue of a patient. The system comprises a user input device configured for allowing a user to select different nerve fiber diameters and to select a set of stimulation parameters. The system further comprises processing circuitry configured estimating regions of activation within the neural tissue of the patient based on the selected nerve fiber diameters and the selected stimulation parameter set. The system further comprises a display device configured for displaying the estimated regions of tissue activation. The user input device may further be configured for allowing the user to select different tissue regions of therapy, in which case, the display device may display the different tissue region on a human body map, and different indicia associating the displayed tissue regions for therapy to displayed estimated regions of tissue activation. | 11-22-2012 |
20120316617 | METHOD AND APPARATUS FOR DETERMINING RELATIVE POSITIONING BETWEEN NEUROSTIMULATION LEADS - A method and neurostimulation control system for operating two leads disposed adjacent tissue of a patient are provided. A plurality of cross-lead electrical parameters are measured to generate a measured electrical profile of the electrode leads. A plurality of cross-lead electrical parameters are estimated to generate a first reference electrical profile for the electrode leads in a first known staggered configuration. The first reference electrical profile is spatially shifted to generate a second reference electrical profile for the electrode leads in a second known staggered configuration. The measured electrical profile is compared to the first and second reference electrical profiles, and a longitudinal stagger between the electrode leads is quantified based on the comparison. | 12-13-2012 |
20130138192 | METHOD AND APPARATUS FOR DETERMINING RELATIVE POSITIONING BETWEEN NEUROSTIMULATION LEADS - A method and medical system for operating two leads disposed adjacent tissue of a patient are provided. A first one of a pair of electrodes respectively carried by the two leads is activated to generate an electrical field within the tissue. An electrical parameter in response to the generated electrical field is measured at a second one of the pair of electrodes. A reference electrical parameter is measured in response to the generated electrical field at a reference electrode carried by the same one of the two leads that carries the first electrode. A reference distance between the first electrode and the reference electrode is known prior to the generation of the electrical field. The ratio between the measured electrical parameter and the measured reference electrical parameter is computed, and the distance between the pair of electrodes is computed as a function of the computed ratio and the reference distance. | 05-30-2013 |
20130245719 | SYSTEM AND METHOD FOR ESTIMATING LOCATION AND DEPTH OF STIMULATION LEADS - A method and external control device for performing a medical procedure on a patient in which at least one stimulation lead is implanted. An electrical signal is conveyed from the stimulation lead into tissue of the patient. An electrical parameter indicative of tissue impedance is measured in response to the conveyance of the electrical signal. One of a plurality of different anatomical regions in which the stimulation lead is implanted is selected and/or a depth in which the stimulation is implanted is determined based on the measured electrical parameter. A stimulation parameter is defined based on the selected one anatomical region and/or implantation depth. Electrical stimulation energy from the stimulation lead is conveyed into the one determined anatomical region in accordance with the defined stimulation parameter. | 09-19-2013 |
20130253610 | HEURISTIC SAFETY NET FOR TRANSITIONING CONFIGURATIONS IN A NEURAL STIMULATION SYSTEM - A system and method using a plurality of electrodes. An immediate virtual multipole is defined, an immediate electrode configuration emulating the immediate virtual multipole is defined, electrical energy is conveyed to the electrodes in accordance with the immediate electrode configuration, a new virtual multipole is defined by changing a parameter of the immediate virtual multipole by a step size, a new electrode configuration that emulates the new virtual multipole is defined, a difference value as a function of the immediate virtual multipole and the new virtual multipole is computed, the different value is compared to a limit value, electrical energy is conveyed to the electrodes in accordance with the new electrode configuration if the difference value does not exceed the limit value, and the absolute value of the step size is decreased to create a new step size if the difference value does exceed the limit value. | 09-26-2013 |
20130253611 | HEURISTIC SAFETY NET FOR TRANSITIONING CONFIGURATIONS IN A NEURAL STIMULATION SYSTEM - A system and method using a plurality of electrodes. An immediate electrode configuration is defined, electrical energy is conveyed to the electrodes in accordance with the immediate electrode configuration, a final electrode configuration is defined, a series of intermediate electrode configurations is defined using a heuristic set of rules based on the immediate electrode configuration and the final electrode configuration, electrical energy is conveyed to the electrodes in accordance with the series of intermediate electrode configurations, and electrical energy is conveyed to the electrodes in accordance with the subsequent electrode configuration. | 09-26-2013 |
20130261718 | METHOD AND APPARATUS FOR DETERMINING RELATIVE POSITIONING BETWEEN NEUROSTIMULATION LEADS - A method and neurostimulation control system for operating two leads disposed adjacent tissue of a patient are provided. A plurality of cross-lead electrical parameters are measured to generate a measured electrical profile of the electrode leads. A plurality of cross-lead electrical parameters are estimated to generate a first reference electrical profile for the electrode leads in a first known staggered configuration. The first reference electrical profile is spatially shifted to generate a second reference electrical profile for the electrode leads in a second known staggered configuration. The measured electrical profile is compared to the first and second reference electrical profiles, and a longitudinal stagger between the electrode leads is quantified based on the comparison. | 10-03-2013 |
20130317572 | LOW-LEVEL LASER THERAPY - A method of treating a patient with an ailment using an optical element implanted within the patient, comprising conveying low-level laser energy having a wavelength in the range of 600 nm-2500 nm from the optical element to a neuronal element of the patient, thereby modulating the neuronal element to treat the ailment. | 11-28-2013 |
20130317573 | COMBINATION ELECTRICAL STIMULATION AND LOW-LEVEL LASER THERAPY - A neuromodulation lead, comprising an elongated body, at least one electrode carried by the distal end of the elongated body, and at least one optical element carried by the distal end of the elongated body. The electrode(s) is configured for conveying electrical energy capable of modulating a neuronal element, and the optical element(s) is configured for conveying low-level laser energy capable of modulating a neuronal element. A method of treating a patient with an ailment comprises conveying electrical energy to a first neuronal element, thereby modulating the first neuronal element, and conveying low-level laser energy having a wavelength in the range of 600 nm-2500 nm to the first neuronal element, thereby modulating the first neuronal element. At least one of the conveyance of the electrical energy and the conveyance of the low-level laser energy treats the ailment. | 11-28-2013 |
20130324892 | ULTRASONIC MEANS AND METHODS FOR DORSAL ROOT GANGLION NEUROMODULATION - A method of treating a patient with an ailment, comprises delivering ultrasound energy to a dorsal root ganglia (DRG), thereby modulating the DRG to treat the ailment. | 12-05-2013 |
20140031901 | TECHNIQUES FOR ELECTRONICALLY ASSESSING ELECTRODE CONDITION AND PERI-ELECTRODE TISSUE CONDUCTIVITY CHANGE PRE- AND POST-MRI - A neurostimulation system and method of operating an implantable neurostimulation device configured for outputting electrical stimulation energy to at least one electrode in accordance with a set of stimulation parameters. The implantable neurostimulation device may be switched from a normal operating mode to a Magnetic Resonance Imaging (MRI) operating mode. Electrical parameter measurements may be repeatedly acquired at each of the electrode(s) in response to the placement of the implantable stimulation system in the MRI mode. A corrective action may be performed based on at least one of the repeatedly acquired electrical parameter measurements. | 01-30-2014 |
20140081350 | METHOD FOR ESTIMATING DESIRED STIMULATION AMPLITUDE FOR ELECTRODE CONFIGURATION - A method of providing therapy to a patient comprises (a) receiving input from a user, (b) selecting a first electrode configuration in response to receiving the user input, (c) predicting a neural response induced by electrical energy theoretically conveyed by the first electrode configuration at a specified amplitude, (d) deriving a metric value from the predicted neural response, (e) comparing the metric value to a reference threshold value, (f) adjusting the specified amplitude of the electrical energy if the metric value is not in a specified range relative to the reference threshold value, (g) repeating steps (c)-(f) using the adjusted amplitude as the specified amplitude until the metric value is in the specific range relative to the reference threshold value, and (h) instructing a neurostimulation device to deliver the electrical energy at the adjusted amplitude via the first electrode configuration to stimulate the patient. | 03-20-2014 |
20140163639 | NEUROSTIMULATION SYSTEM WITH THREE-DIMENSIONAL LEAD MIGRATION DETECTION AND AUTOMATIC NEUROSTIMULATION CORRECTION - A neurostimulation system configured for providing therapy to a patient, comprises at least one implantable neurostimulation lead configured for being implanted adjacent target tissue of the patient, and an implantable neurostimulator configured for delivering electrical stimulation energy to the implantable neurostimulation lead(s) in accordance with a set of stimulation parameters capable, and monitoring circuitry configured for taking at least one measurement indicative of a three-dimensional migration of the neurostimulation lead(s) from a baseline position. The neurostimulation system further comprises at least one controller/processor configured for determining whether the three-dimensional migration of the neurostimulation lead(s) from the baseline position has occurred based on the measurement(s), and, based on the determined three-dimensional migration, generating a new set of stimulation parameters, and reprogramming the implantable neurostimulator with the new set of stimulation parameters. | 06-12-2014 |
20140180363 | SYSTEM AND METHOD FOR ESTIMATING LEAD CONFIGURATION FROM NEIGHBORING RELATIONSHIP BETWEEN ELECTRODES - A method and neurostimulation control system for programming electrodes disposed adjacent tissue of a patient. A fixed spatial grid of electrode positions is generated. One of the electrodes is designated as a reference electrode to be currently examined, and assigned to one of the electrode grid positions. One or more previously unassigned ones of the electrodes neighboring the reference electrode are assigned respectively to one or more of the electrode grid positions immediately surrounding the electrode grid position to which the reference electrode is assigned. The electrodes are programmed based on the assignment of the electrodes to the electrode grid positions. | 06-26-2014 |
20140243923 | MULTI-CHANNEL NEUROMODULATION SYSTEM HAVING FREQUENCY MODULATION STIMULATION - A neuromodulation system comprises a plurality of electrical terminals configured for being respectively coupled to electrodes, modulation output circuitry configured for respectively outputting a plurality of individual electrical pulse trains in a plurality of timing channels to the electrical terminals, wherein each of the timing channels prevents the respective pulse train from having a specific characteristic, and control circuitry configured for controlling the modulation output circuitry in a manner that outputs the pulse trains to a common set of the electrical terminals, thereby creating a combined electrical pulse train at the common set of electrical terminals that has the specific characteristic. A method of providing therapy to a patient comprises delivering a plurality of electrical pulse trains respectively in a plurality of timing channels to a common set of electrodes implanted within the patient, thereby creating a combined electrical pulse train at the common set of electrical terminals. | 08-28-2014 |
20140243924 | NEUROSTIMULATION SYSTEM HAVING INCREASED FLEXIBILITY FOR CREATING COMPLEX PULSE TRAINS - A neuromodulation system comprises electrical terminals configured for being respectively coupled to electrodes. The system further comprises modulation output circuitry configured for respectively outputting individual electrical pulse trains in timing channels to the electrical terminals, wherein each of the pulse trains has a modulation pulse, and at least one of the pulse trains has a charge recovery pulse associated with the modulation pulse of the respective pulse train. The neuromodulation system further comprises control circuitry configured for controlling the modulation output circuitry in a manner that sequentially outputs the modulation pulses of the respective pulse trains to a common set of the electrical terminals without an intervening charge recovery pulse, and outputting the charge recovery pulse(s) to the common set of the electrical terminals subsequent to the sequential modulation pulses, thereby creating a combined electrical pulse train at the common set of electrical terminals. | 08-28-2014 |
20140257428 | NEUROMODULATION USING MODULATED PULSE TRAIN - A neuromodulation system comprises a plurality of electrical terminals configured for being respectively coupled to a plurality of electrodes, a user interface configured for receiving input from a user that selects one of a plurality of different shapes of a modulating signal and/or selects one of a plurality of different electrical pulse parameters of an electrical pulse train, neuromodulation output circuitry configured for outputting an electrical pulse train to the plurality of electrical terminals, and pulse train modulation circuitry configured for modulating the electrical pulse train in accordance with the selected shape of the modulating signal and/or selected electrical pulse parameter of the electrical pulse train. | 09-11-2014 |
20140277267 | NEUROMODULATION SYSTEM AND METHOD FOR TRANSITIONING BETWEEN PROGRAMMING MODES - An external control device and method for programming an implantable neuromodulator coupled to an electrode array implanted adjacent tissue of a patient having a medical condition. Electrical modulation energy is conveyed to tissue of the patient in accordance with a series of modulation parameter sets. The patient perceives paresthesia in response to the conveyance of the electrical modulation energy to the tissue in accordance with at least one of the modulation parameter sets. One of the modulation parameter set(s) is identified based on the perceived paresthesia. Another modulation parameter set is derived from the identified modulation parameter set. Electrical modulation energy is conveyed to the tissue of the patient in accordance with the other modulation parameter set without causing the patient to perceive paresthesia. | 09-18-2014 |
20150018634 | SYSTEMS AND METHODS FOR DETECTING CEREBROSPINAL-FLUID PULSATION USING AN IMPLANTABLE ELECTRICAL STIMULATION DEVICE - An electrical stimulation lead assembly includes a lead body having a distal end portion, a proximal end portion, and a longitudinal length. Electrodes are disposed along the distal end portion of the lead body; terminals disposed along the proximal end portion of the lead body; and stimulation conductors couple the terminals to the electrodes. A cerebrospinal-fluid-pulsation detection assembly includes a sensor disposed along the distal end portion of the lead body. The sensor detects pulses of cerebrospinal fluid within a subarachnoid space of a patient and transforms the detected cerebrospinal-fluid pulses into sensor signals. A sensor processor receives the sensor signals from the sensor, processes the received sensor signals to cerebrospinal-fluid pulsation data (“CSF-pulsation data”), and estimates a patient blood-flow condition based on the CSF-pulsation data. A sensor control pathway couples the sensor to the sensor processor. | 01-15-2015 |
20150073502 | HEURISTIC SAFETY NET FOR TRANSITIONING CONFIGURATIONS IN A NEURAL STIMULATION SYSTEM - A system and method using a plurality of electrodes. An immediate electrode configuration is defined, electrical energy is conveyed to the electrodes in accordance with the immediate electrode configuration, a final electrode configuration is defined, a series of intermediate electrode configurations is defined using a heuristic set of rules based on the immediate electrode configuration and the final electrode configuration, electrical energy is conveyed to the electrodes in accordance with the series of intermediate electrode configurations, and electrical energy is conveyed to the electrodes in accordance with the subsequent electrode configuration. | 03-12-2015 |